劉仲武，男，1971年6月生，湖南省邵東縣人，博士，現(xiàn)為華南理工大學(xué)材料學(xué)院教授，博士生導(dǎo)師。目前主要從事磁性材料、功能薄膜與器件、非晶與納米晶材料以及納米結(jié)構(gòu)合成等領(lǐng)域的研究。主持國(guó)家自然科學(xué)基金、廣東省自然科學(xué)基金項(xiàng)目、廣東省科技攻關(guān)項(xiàng)目、廣東省國(guó)際合作、廣東省產(chǎn)學(xué)研合作、教育部留學(xué)回國(guó)人員科研啟動(dòng)基金、國(guó)家重點(diǎn)實(shí)驗(yàn)室基金項(xiàng)目等多項(xiàng)科研課題。

近五年，主持國(guó)家自然科學(xué)基金面上項(xiàng)目3項(xiàng)、國(guó)防“973”項(xiàng)目課題1項(xiàng)、廣東省自然科學(xué)基金項(xiàng)目、廣東省科技計(jì)劃項(xiàng)目、廣東省產(chǎn)學(xué)研合作項(xiàng)目、廣州市科技計(jì)劃等縱向科研課題十余項(xiàng)，主持多項(xiàng)橫向課題。在Adv Mater、JACS、Appl Phys Lett、Acta Mater、Mater Design、J Appl Phys等國(guó)際和國(guó)內(nèi)學(xué)術(shù)刊物上發(fā)表論文380余篇，SCI收錄280余篇。1998、1999年兩次獲中國(guó)航空工業(yè)總公司科技進(jìn)步二等獎(jiǎng)，2017年獲廣東省科技三等獎(jiǎng)。2005年獲英國(guó)Daniel Doncastor Prize；2008年入選廣東省“千百十工程”學(xué)術(shù)骨干；2011年入選教育部“新世紀(jì)優(yōu)秀人才”。

目前是多個(gè)國(guó)際期刊編委，廣東省材料研究學(xué)會(huì)理事、廣東省稀土材料標(biāo)準(zhǔn)化技術(shù)委員會(huì)委員、廣東省青年科學(xué)家協(xié)會(huì)理事；捷克、馬來(lái)西亞、巴基斯坦等多個(gè)國(guó)家境外評(píng)審專(zhuān)家。注重國(guó)際交流與合作，與國(guó)內(nèi)外同行保持著密切聯(lián)系并開(kāi)展了多方位的國(guó)際合作。

 教育及工作經(jīng)歷：

1993年本科畢業(yè)于中南工業(yè)大學(xué)，獲學(xué)士學(xué)位

1996年研究生畢業(yè)于北京科技大學(xué)，獲碩士學(xué)位

2005年在英國(guó)謝菲爾德大學(xué)（University of Sheffield）工程材料系獲博士學(xué)位

2006年入選華南理工大學(xué)“興華人才工程”“百人計(jì)劃”，2007年被評(píng)為教授。

2008年1月開(kāi)始在華南理工大學(xué)工作，2008年5月被評(píng)為博士生導(dǎo)師，指導(dǎo)材料加工工程專(zhuān)業(yè)博士和碩士研究生。

2008年入選第五批廣東省“千百十工程”學(xué)術(shù)骨干。教育部“新世紀(jì)優(yōu)秀人才”。

1996年至2001年在北京航空材料研究院高溫合金研究室從事研究工作，歷任助理工程師和研究工程師。

2005年至2007年初在新加坡國(guó)立大學(xué)物理系超導(dǎo)與磁性材料中心從事博士后研究工作，任Research Fellow。

       2007年至2008年在南洋理工大學(xué)材料科學(xué)與工程學(xué)院從事研究工作，任研究員。

 2010年和2014年兩次任南洋理工大學(xué)“訪問(wèn)教授”。講授“材料化學(xué)”、“薄膜材料與技術(shù)”、“材料科學(xué)與工程導(dǎo)論”、“磁性材料原理、工藝與應(yīng)用”、“磁性物理”、“材料科學(xué)與工程進(jìn)展”等本科生、研究生和博士生課程。2017年晉升三級(jí)教授。

 學(xué)術(shù)兼職及社會(huì)任職：

1、馬來(lái)西亞國(guó)民大學(xué)通訊評(píng)議專(zhuān)家。

2、捷克科學(xué)基金外部評(píng)審。

3、國(guó)家自然科學(xué)基金、教育部博士點(diǎn)基金、廣東省科技計(jì)劃、廣東省自然科學(xué)基金、廣東省優(yōu)秀博士論文評(píng)審專(zhuān)家。

4、《材料科學(xué)》編委。

5、國(guó)際電器與電子工程師協(xié)會(huì)（IEEE）會(huì)員。

6、英國(guó)磁學(xué)學(xué)會(huì)（UK Magnetics Society）會(huì)員。

7、英國(guó)物理學(xué)會(huì)（Institute of Physics UK）會(huì)員。

8、《Applied Physics Letters》、《Journal of Applied Physics》、 《Journal of Materials Research》、《Journal of Physics D: Applied Physics》、《Journal of Physics: Condense Matter》、《Nanotechnology》、《Journal of Crystal Growth》、《Journal of Alloys and Compounds》、《Journal of Magnetism and Magnetic Materials》、《Metallurgical and Materials Transaction A》, Materials Science and Engineering B》、《Superconductivity》、《Superconductor Science and Technology》、《Advanced Science Letters》、 《中南大學(xué)學(xué)報(bào)》、《武漢理工大學(xué)學(xué)報(bào)-英文版》、《湖南大學(xué)學(xué)報(bào)》、《有色金屬學(xué)報(bào)》等國(guó)內(nèi)外學(xué)術(shù)期刊特約及匿名審稿人。

主講課程：

主講本科課程《材料科學(xué)與工程導(dǎo)論》、《材料物理基礎(chǔ)》、《材料化學(xué)》、《磁性材料》、《薄膜技術(shù)與薄膜材料》；

主講碩士研究生課程《材料物理》、《磁性材料原理、工藝與應(yīng)用》、《Advanced Metallic Materials and Compounds》；

主講博士研究生課程《磁性材料原理與應(yīng)用》、《材料科學(xué)前沿》、《材料制備技術(shù)》等；

教學(xué)獲獎(jiǎng)：

獲華南理工大學(xué)“三育人”先進(jìn)個(gè)人、“中集”獎(jiǎng)教金、“拓璞”獎(jiǎng)教金、優(yōu)秀班主任、優(yōu)秀指導(dǎo)老師等榮譽(yù)。獲首屆華南理工大學(xué)“我最喜愛(ài)的研究生導(dǎo)師”稱號(hào)。

招生情況：

在材料加工工程專(zhuān)業(yè)招生金屬材料與無(wú)機(jī)材料方向碩士和博士研究生。招生人數(shù)：博士生1～2人/年；學(xué)術(shù)型碩士生2人/年；專(zhuān)業(yè)學(xué)位碩士生1人/年。

研究方向:

1. 稀土永磁材料（釹鐵硼、釤鈷合金）；

2. 納米結(jié)構(gòu)磁性材料與磁性納米顆粒；

3. 磁性薄膜和其它功能薄膜；

4. 磁致冷材料與磁致冷技術(shù)；

5. 高性能非晶和納米晶軟磁材料；

6. 非晶與納米晶材料、大塊非晶；

7. 納米結(jié)構(gòu)金屬與氧化物；

8. 其它功能材料與器件。

承擔(dān)科研項(xiàng)目情況：

主持國(guó)家自然科學(xué)基金、廣東省自然科學(xué)基金項(xiàng)目、廣東省科技攻關(guān)項(xiàng)目、廣東省國(guó)際合作、廣東省產(chǎn)學(xué)研合作、教育部留學(xué)回國(guó)人員科研啟動(dòng)基金、國(guó)家重點(diǎn)實(shí)驗(yàn)室基金項(xiàng)目等多項(xiàng)科研課題。

1. 國(guó)家自然科學(xué)基金面上項(xiàng)目，2012-2015，負(fù)責(zé)人 。

2. 教育部“新世紀(jì)優(yōu)秀人才計(jì)劃”資助項(xiàng)目，2011-2014，負(fù)責(zé)人。

3. 新金屬材料國(guó)家重點(diǎn)實(shí)驗(yàn)室開(kāi)放基金重點(diǎn)項(xiàng)目，2012-2013, 負(fù)責(zé)人。

4. 廣東省省部產(chǎn)學(xué)研結(jié)合項(xiàng)目，2010-2013，負(fù)責(zé)人。

5. 廣東省國(guó)際合作項(xiàng)目，2010-2013，負(fù)責(zé)人。

6. 廣東省自然科學(xué)基金，2008-2010，負(fù)責(zé)人 。

7. 廣東省科技計(jì)劃工業(yè)攻關(guān)項(xiàng)目，2008-2011，負(fù)責(zé)人。

8. 新金屬材料國(guó)家重點(diǎn)實(shí)驗(yàn)室開(kāi)放基金，2009-2010, 負(fù)責(zé)人。

9. 教育部留學(xué)回國(guó)科研基金，2009-2012，負(fù)責(zé)人。

10. 中央高校科研基本費(fèi)華工重點(diǎn)項(xiàng)目，009-2010，負(fù)責(zé)人。

11. 國(guó)家自然科學(xué)基金面上項(xiàng)目，2009-2011，項(xiàng)目組織者，參加人。

12. 國(guó)家自然科學(xué)基金-廣東省聯(lián)合資助重點(diǎn)項(xiàng)目，2008-2010，參加人。

13. 其它項(xiàng)目，略，參加人。

發(fā)明公開(kāi)：

[1]廖怡君, 劉仲武, 馮建濤, 賈穎燕, 趙利忠, 張雪峰. 前驅(qū)體及其制備方法、鋁鎳鈷磁鋼及其制備方法[P]. 浙江省: CN117210738A, 2023-12-12.

[2]廖怡君, 劉仲武, 馮建濤, 賈穎燕, 趙利忠, 張雪峰. 多組元合金粉體及其制備方法、壓坯和應(yīng)用[P]. 浙江省: CN117102474A, 2023-11-24.

[3]劉仲武, 高遠(yuǎn), 余紅雅, 鐘喜春. 一種含Sm-Fe-Ti/Nd-Fe-B的復(fù)合粘結(jié)磁體及其制備方法[P]. 廣東省: CN116936213A, 2023-10-24.

[4]邱萬(wàn)奇, 朱一方, 焦東玲, 鐘喜春, 劉仲武. 一種防水霧透明導(dǎo)電玻璃及其制備方法和應(yīng)用[P]. 廣東省: CN116891346A, 2023-10-17.

[5]邱萬(wàn)奇, 童洋, 焦東玲, 鐘喜春, 劉仲武. 一種奧氏體鋼的強(qiáng)化方法及其應(yīng)用[P]. 廣東省: CN116574868A, 2023-08-11.

[6]邱萬(wàn)奇, 劉文杰, 焦東玲, 鐘喜春, 劉仲武. 一種Al-(50)Cr-(50)/富鋁剛玉結(jié)構(gòu)Al-Cr-O雙層薄膜及其制備方法和應(yīng)用[P]. 廣東省: CN116575001A, 2023-08-11.

[7]鐘喜春, 郝中原, 黃譞, 劉仲武, 余紅雅, 邱萬(wàn)奇, 焦東玲. 一種基于SPS技術(shù)的La-Fe-Si基磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN116422873A, 2023-07-14.

[8]鐘喜春, 李國(guó)鵬, 黃譞, 劉仲武, 余紅雅, 邱萬(wàn)奇, 焦東玲. 一種高強(qiáng)度La-Fe-Si基磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN116426809A, 2023-07-14.

[9]劉仲武, 袁涵, 余紅雅, 胡錦文. 一種雙無(wú)機(jī)包覆磁粉芯及其制備方法[P]. 廣東省: CN116435083A, 2023-07-14.

[10]劉仲武, 王策, 余紅雅, 羅盼, 袁涵. 一種高致密度非晶軟磁復(fù)合材料及其制備方法[P]. 廣東省: CN116313480A, 2023-06-23.

[11]余紅雅, 羅盼, 劉仲武, 袁涵, 王策. 一種非晶一體成型電感及其制備方法[P]. 廣東省: CN116246879A, 2023-06-09.

[12]宋桐翠, 龍克文, 宋水艷, 劉仲武, 趙利忠, 張雪峰. 磁開(kāi)關(guān)傳感器全流程數(shù)字化加工系統(tǒng)及加工方法[P]. 廣東省: CN116088428A, 2023-05-09.

[13]劉仲武, 何家毅, 胡錦文, 魏祖春, 余紅雅, 鐘喜春, 趙利忠. 一種高磁性能高電阻率的釹鐵硼轉(zhuǎn)子磁體及其制備與應(yīng)用[P]. 廣東省: CN115472369A, 2022-12-13.

[14]劉仲武, 黃瑋森, 廖雪峰, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種純高豐度稀土橡膠磁體及其制備方法[P]. 廣東省: CN114864206A, 2022-08-05.

[15]余紅雅, 李家明, 劉仲武, 袁涵. 一種無(wú)機(jī)-有機(jī)復(fù)合包覆的FeSiCrB霧化非晶磁粉及其制備方法和應(yīng)用[P]. 廣東省: CN114823034A, 2022-07-29.

[16]邱萬(wàn)奇, 帥忠源, 焦東玲, 鐘喜春, 劉仲武. 一種硅基表面沉積α-氧化鋁介質(zhì)膜的方法[P]. 廣東省: CN114807854A, 2022-07-29.

[17]邱萬(wàn)奇, 李航, 焦東玲, 鐘喜春, 劉仲武. 一種制備單相Fe-2B滲層的方法及其應(yīng)用[P]. 廣東省: CN114774842A, 2022-07-22.

[18]邱萬(wàn)奇, 徐聰, 焦東玲, 鐘喜春, 劉仲武. 一種反應(yīng)磁控濺射系統(tǒng)中的紫外輔助沉積裝置及沉積方法[P]. 廣東省: CN114717529A, 2022-07-08.

[19]鐘喜春, 吳雨財(cái), 劉仲武, 余紅雅, 邱萬(wàn)奇, 焦東玲. 一種基于高溫SPS粉末自粘結(jié)技術(shù)的La-Fe-Si基磁制冷塊體材料及其制備方法[P]. 廣東省: CN114700491A, 2022-07-05.

[20]余紅雅, 關(guān)少聰, 劉仲武, 袁涵. 一種具有雙包覆層的鐵基磁粉及其制備方法和應(yīng)用[P]. 廣東省: CN114664509A, 2022-06-24.

[21]劉仲武, 張家勝, 廖雪峰, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種釹鐵硼厚磁體的多層晶界擴(kuò)散方法[P]. 廣東省: CN114334415A, 2022-04-12.

[22]劉仲武, 宋文玥, 何家毅, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種利用宏觀不均勻擴(kuò)散制備高矯頑力釹鐵硼磁體的方法[P]. 廣東省: CN113808839A, 2021-12-17.

[23]劉仲武, 吳雅祥, 袁涵, 余紅雅, 鐘喜春. 一種磁性復(fù)合材料熱壓成型固化系統(tǒng)及方法[P]. 廣東省: CN113690041A, 2021-11-23.

[24]劉仲武, 袁涵, 吳雅祥, 余紅雅, 鐘喜春. 一種磁性復(fù)合材料的固化系統(tǒng)及方法[P]. 廣東省: CN113692078A, 2021-11-23.

[25]劉仲武, 吳雅祥, 余紅雅. 一種8字形經(jīng)顱磁刺激線圈、磁刺激裝置及磁刺激系統(tǒng)[P]. 廣東省: CN113679948A, 2021-11-23.

[26]劉仲武, 吳雅祥, 余紅雅, 鐘喜春. 一種H型經(jīng)顱磁刺激線圈、磁刺激裝置及磁刺激系統(tǒng)[P]. 廣東省: CN113679949A, 2021-11-23.

[27]劉仲武, 吳雅祥, 余紅雅, 李靜. 8字形經(jīng)顱磁刺激線圈、磁刺激裝置及磁刺激系統(tǒng)[P]. 廣東省: CN113679950A, 2021-11-23.

[28]邱萬(wàn)奇, 李修賢, 焦東玲, 鐘喜春, 劉仲武. 一種金基鑲嵌結(jié)構(gòu)α-氧化鋁薄膜及其制備方法與應(yīng)用[P]. 廣東省: CN113684457A, 2021-11-23.

[29]劉仲武, 宋文玥, 何家毅, 周幫, 余紅雅, 鐘喜春. 一種高效擴(kuò)散提高釹鐵硼磁體矯頑力的方法[P]. 廣東省: CN113506665A, 2021-10-15.

[30]余紅雅, 馮越, 劉仲武, 賴曉翔, 鐘喜春. 一種FeSiCr磁粉芯及其制備方法[P]. 廣東省: CN113410020A, 2021-09-17.

[31]邱萬(wàn)奇, 羅文斌, 焦東玲, 鐘喜春, 劉仲武. 一種FeNi合金層、電鍍液及制備方法和應(yīng)用[P]. 廣東省: CN113215496A, 2021-08-06.

[32]廖紹偉, 黃澤輝, 劉仲武, 車(chē)文荃, 薛泉. 一種聲波諧振電小天線及其制備方法[P]. 廣東省: CN113224509A, 2021-08-06.

[33]余紅雅, 賴曉翔, 鐘喜春, 劉仲武, 馮越. 具有雙包覆層的FeSiCr合金磁粉及其制備方法、磁粉芯及其制備方法[P]. 廣東省: CN113096906A, 2021-07-09.

[34]劉仲武, 何家毅, 宋文玥, 廖雪峰, 余紅雅, 鐘喜春. 一種釹鐵硼磁體用合金復(fù)合晶界擴(kuò)散劑及其制備方法與應(yīng)用[P]. 廣東省: CN112941457A, 2021-06-11.

[35]劉仲武, 鐘喜春, 其他發(fā)明人請(qǐng)求不公開(kāi)姓名. 一種接觸式磁性壓力傳感器[P]. 廣東省: CN112857653A, 2021-05-28.

[36]鐘喜春, 胡錦文, 劉仲武, 余紅雅, 張虎, 龍克文. 一種錳鋅鐵氧體預(yù)燒料及其制備工藝[P]. 廣東省: CN112723872A, 2021-04-30.

[37]李暉云, 李晨暉, 聶勇, 崔寧, 劉允中, 李小強(qiáng), 曲盛官, 劉仲武. 一種微米級(jí)貴金屬粉末的多級(jí)組合式水力旋流分級(jí)方法[P]. 廣東省: CN112403695A, 2021-02-26.

[38]余紅雅, 鄒飛, 周慶, 劉仲武, 肖方明. 釹鐵硼磁粉及其制備方法與應(yīng)用[P]. 廣東省: CN111681867A, 2020-09-18.

[39]焦東玲, 邱萬(wàn)奇, 鐘喜春, 劉仲武, 張輝. 一種提高硬鉻鍍層與鋼基體結(jié)合力的方法[P]. 廣東省: CN111549372A, 2020-08-18.

[40]邱萬(wàn)奇, 劉歡龍, 焦東玲, 鐘喜春, 劉仲武. 一種基于純鎳基體致密滲硼層的滲硼劑及其制備方法[P]. 廣東省: CN111519131A, 2020-08-11.

[41]邱萬(wàn)奇, 萬(wàn)健, 焦東玲, 鐘喜春, 劉仲武. 一種富Al剛玉結(jié)構(gòu)Al-Cr-O薄膜及其制備方法[P]. 廣東省: CN111455333A, 2020-07-28.

[42]張輝, 胡景宇, 劉仲武, 李豪, 余紅雅, 鐘喜春. 一種具有擇優(yōu)取向的Fe-Si-B-P-Cu納米晶軟磁合金材料及其制備方法[P]. 廣東省: CN111411312A, 2020-07-14.

[43]鐘喜春, 吳思?jí)? 董旭濤, 劉仲武, 張輝, 余紅雅, 邱萬(wàn)奇, 焦東玲. 一種基于SPS技術(shù)的La-Fe-Si基室溫磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN111230112A, 2020-06-05.

[44]王永飛, 劉仲武, 關(guān)濤, 劉艷杰. 一種精密電流檢測(cè)用鈷基非晶軟磁合金及其制備方法[P]. 廣東省: CN110983112A, 2020-04-10.

[45]王永飛, 劉仲武, 關(guān)濤, 劉艷杰. 一種抗直流分量互感器用鐵基非晶軟磁合金及其制備方法[P]. 廣東省: CN110993240A, 2020-04-10.

[46]劉仲武, 何家毅, 邱萬(wàn)奇, 余紅雅, 鐘喜春. 一種改善釹鐵硼磁體矯頑力和耐磨耐蝕性能的方法[P]. 廣東省: CN110656315A, 2020-01-07.

[47]鐘喜春, 董旭濤, 劉仲武, 余紅雅, 張輝, 邱萬(wàn)奇. 一種基于熱壓反應(yīng)燒結(jié)的La-Fe-Si基磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN110534276A, 2019-12-03.

[48]劉仲武, 廖雪峰, 張家勝, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種純高豐度稀土Ce,La,Y基多元納米晶永磁合金及制備[P]. 廣東省: CN110534279A, 2019-12-03.

[49]劉仲武, 唐春梅, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種氧化銅/銅鉬氧化物納米異質(zhì)結(jié)構(gòu)材料及其制備方法[P]. 廣東省: CN110510655A, 2019-11-29.

[50]劉仲武, 唐春梅, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種核殼結(jié)構(gòu)CuO/ZnO納米棒陣列及其制備方法[P]. 廣東省: CN110438443A, 2019-11-12.

[51]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅, 胡錦文. 一種高功率稀土釔鐵石榴石復(fù)合鐵氧體材料的制備方法[P]. 廣東省: CN110156453A, 2019-08-23.

[52]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅, 胡錦文. 一種低損耗石榴石鐵氧體材料的制備方法[P]. 廣東省: CN110128129A, 2019-08-16.

[53]邱萬(wàn)奇, 何家毅, 焦東玲, 鐘喜春, 劉仲武. 一種代鉻(Ⅵ)鍍層的Cr-Fe合金靶材及制備與應(yīng)用[P]. 廣東省: CN110079773A, 2019-08-02.

[54]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅. 一種二氧化硅-石墨烯復(fù)合包覆改性AB5型儲(chǔ)氫合金的方法[P]. 廣東省: CN110052601A, 2019-07-26.

[55]劉仲武, 李兆玉, 鐘喜春, 余紅雅, 胡錦文. 一種高振幅磁導(dǎo)率MnZn鐵氧體材料及其制備方法[P]. 廣東省: CN110054489A, 2019-07-26.

[56]邱萬(wàn)奇, 何家毅, 焦東玲, 鐘喜春, 劉仲武. 一種CrFe+(Cr,Fe)N代鉻鍍層及其制備方法[P]. 廣東省: CN110055495A, 2019-07-26.

[57]余紅雅, 彭玲香, 劉仲武, 周慶. 一種低成本熔體快淬釹鐵硼合金及其制備方法[P]. 廣東省: CN110004374A, 2019-07-12.

[58]余紅雅, 左建亮, 劉仲武, 程丹妮, 吉麗. 一種耐高溫耐腐蝕高熵非晶軟磁合金及其制備方法[P]. 廣東省: CN109930085A, 2019-06-25.

[59]劉仲武, 余紅雅, 鐘喜春, 張虎, 龍克文. 一種高性能NiZn鐵氧體材料及其制備方法[P]. 廣東省: CN109912302A, 2019-06-21.

[60]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅. 一種表面微孔化鍍鎳儲(chǔ)氫合金的制備方法[P]. 廣東省: CN109913700A, 2019-06-21.

[61]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅. 一種鎂基儲(chǔ)氫合金及其制備方法[P]. 廣東省: CN109898002A, 2019-06-18.

[62]劉仲武, 李豪, 張輝, 胡景宇, 鐘喜春. 一種Fe-Si-B鐵基非晶軟磁合金及其制備方法[P]. 廣東省: CN109830352A, 2019-05-31.

[63]鐘喜春, 劉仲武, 余紅雅, 張虎, 龍克文. 一種寬溫高磁導(dǎo)率低損耗MnZn功率鐵氧體材料的制備方法[P]. 廣東省: CN109704745A, 2019-05-03.

[64]彭玲香, 周慶, 劉仲武, 唐仁衡, 肖方明, 余紅雅. 一種高磁性快淬釹鐵硼磁粉及其制備方法[P]. 廣東省: CN109599236A, 2019-04-09.

[65]鐘喜春, 董旭濤, 彭得然, 劉仲武, 焦東玲, 張輝, 余紅雅, 邱萬(wàn)奇. 一種La-Fe-Si基室溫磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN109454225A, 2019-03-12.

[66]邱萬(wàn)奇, 楊宇, 王耀輝, 程奕天, 焦東玲, 劉仲武, 鐘喜春. 一種三層膜結(jié)構(gòu)涂層及其制備方法[P]. 廣東: CN109082641A, 2018-12-25.

[67]邱萬(wàn)奇, 王耀輝, 熊成, 焦東玲, 劉仲武, 鐘喜春, 張輝. 一種柔性硼勢(shì)固體滲硼劑及制備單相Fe₂B滲硼層的方法[P]. 廣東: CN109023226A, 2018-12-18.

[68]趙利忠, 李成利, 劉仲武, 李領(lǐng)偉. 一種納米晶釹鐵硼磁體的制備工藝[P]. 浙江: CN108987016A, 2018-12-11.

[69]余紅雅, 高建波, 劉仲武, 程丹妮, 李開(kāi)瀝, 郭寶春, 陳熹, 韓光澤. 一種FeSiAl磁粉芯及其制備方法[P]. 廣東: CN108987022A, 2018-12-11.

[70]劉仲武, 許可, 鐘喜春, 邱萬(wàn)奇, 焦東玲. 一種釤鐵氮永磁粉末的制備方法[P]. 廣東: CN108777204A, 2018-11-09.

[71]劉仲武, 曾慧欣, 李偉, 趙利忠, 張家勝, 鐘喜春, 邱萬(wàn)奇. 一種高矯頑力釹鐵硼磁體及其制備方法[P]. 廣東: CN108565105A, 2018-09-21.

[72]劉仲武, 鄧沃湛, 鐘喜春, 余紅雅. 一種二次料制備錳鋅鐵氧體的氧分壓控制燒結(jié)方法[P]. 廣東: CN108484153A, 2018-09-04.

[73]劉仲武, 田憶蘭, 鐘喜春, 邱萬(wàn)奇, 焦東玲. 一種利用釹鐵硼固體廢料制備N(xiāo)d₂Fe₁₄B/α-Fe納米復(fù)合磁粉的方法[P]. 廣東: CN108470616A, 2018-08-31.

[74]鐘喜春, 彭得然, 董旭濤, 劉仲武, 焦東玲, 邱萬(wàn)奇, 張輝. 一種基于晶界擴(kuò)散技術(shù)的LaFeSi基磁制冷復(fù)合塊體材料及其制備方法[P]. 廣東: CN108242302A, 2018-07-03.

[75]曾志超, 魯曉燕, 田憶蘭, 劉仲武. 一種超薄散熱性能優(yōu)良的磁場(chǎng)屏蔽片及其制備方法[P]. 廣東: CN108235677A, 2018-06-29.

[76]邱萬(wàn)奇, 李浩, 劉仲武, 莫東強(qiáng), 孫歌, 盧啟棠. 一種銅基嵌入式組合熱沉及其制備方法[P]. 廣東: CN107871722A, 2018-04-03.

[77]鐘喜春, 董旭濤, 彭得然, 劉仲武, 焦東玲, 邱萬(wàn)奇. 一種La#Fe#Si基磁制冷復(fù)合材料及其制備方法[P]. 廣東: CN107689278A, 2018-02-13.

[78]鐘偉杰, 焦東玲, 劉仲武, 許文勇, 李周, 張國(guó)慶. 一種鎳基高溫合金粉末中非金屬夾雜物的定量表征方法[P]. 廣東: CN107607567A, 2018-01-19.

[79]劉仲武, 張振揚(yáng), 鐘喜春, 邱萬(wàn)奇. 一種雙合金納米晶稀土永磁體及其制備方法[P]. 廣東: CN107424695A, 2017-12-01.

[80]焦東玲, 鐘偉杰, 劉仲武, 許文勇, 李周, 張國(guó)慶. 一種微米級(jí)鎳基高溫合金粉末透射電鏡薄膜樣品的制備方法[P]. 廣東: CN107121316A, 2017-09-01.

[81]邱萬(wàn)奇, 甄永輝, 王書(shū)林, 劉仲武, 鐘喜春, 焦東玲. 一種鑲嵌結(jié)構(gòu)界面α#氧化鉻涂層及其制備方法[P]. 廣東: CN106967947A, 2017-07-21.

[82]邱萬(wàn)奇, 王書(shū)林, 鐘喜春, 劉仲武, 焦東玲. 一種納米α#氧化鋁/氧化鉻復(fù)合涂層及其制備方法[P]. 廣東: CN106939404A, 2017-07-11.

[83]鐘喜春, 黃旭文, 沈小艷, 劉仲武, 焦東玲, 張輝, 邱萬(wàn)奇. 一種Gd#Co基非晶納米晶磁制冷材料及其制備方法[P]. 廣東: CN106702245A, 2017-05-24.

[84]鐘喜春, 沈小艷, 劉仲武, 焦東玲, 邱萬(wàn)奇. 一種復(fù)合磁制冷材料及其制備方法[P]. 廣東: CN106601399A, 2017-04-26.

[85]鐘喜春, 封小亮, 劉仲武, 焦東玲, 邱萬(wàn)奇. 一種La#Fe基磁制冷復(fù)合材料及其制備方法[P]. 廣東: CN106381133A, 2017-02-08.

[86]劉仲武, 周慶, 鐘喜春, 鄭志剛. 一種改善釹鐵硼磁體性能的固體擴(kuò)散工藝[P]. 廣東: CN104505247A, 2015-04-08.

[87]余紅雅, 朱忠仁, 鄭志剛, 曾德長(zhǎng), 鐘喜春, 劉仲武. 一種Mn-Fe-P-Si磁制冷材料及其制備方法[P]. 廣東: CN104357727A, 2015-02-18.

[88]鄭志剛, 余紅雅, 張家勝, 劉仲武, 曾德長(zhǎng). 一種Fe基非晶納米晶軟磁材料及其制備方法[P]. 廣東: CN104233121A, 2014-12-24.

[89]曾德長(zhǎng), 馬海力, 劉仲武, 余紅雅. 一種納米結(jié)構(gòu)可控的稀磁半導(dǎo)體材料及其制備方法與裝置[P]. 廣東: CN104200947A, 2014-12-10.

[90]劉仲武, 鄧向星, 肖志瑜, 余紅雅, 鐘喜春, 曾德長(zhǎng), 鄭志剛, 王剛. 一種各向異性納米晶釹鐵硼磁體及其制備方法與應(yīng)用[P]. 廣東: CN104134529A, 2014-11-05.

[91]劉仲武, 趙利忠, 鄭志剛, 李偉, 王剛, 鐘喜春, 余紅雅, 曾德長(zhǎng). 一種釹鐵硼永磁材料及制備方法與磁場(chǎng)輔助直接鑄造裝置[P]. 廣東: CN103894587A, 2014-07-02.

[92]焦東玲, 黎民頌, 曾德長(zhǎng), 劉仲武. 一種在低碳合金鋼表面制備的高氮奧氏體層及制備方法[P]. 廣東: CN103774085A, 2014-05-07.

[93]曾德長(zhǎng), 鄭惠豐, 余紅雅, 劉仲武, 匡同春. 一種化學(xué)拋光液及合金表面拋光處理方法[P]. 廣東: CN103757636A, 2014-04-30.

[94]曾德長(zhǎng), 吳姚莎, 李尚周, 劉仲武, 余紅雅, 鐘喜春. Ni基合金-TiB₂納米涂層的制備方法[P]. 廣東: CN103589984A, 2014-02-19.

[95]曾德長(zhǎng), 吳姚莎, 李尚周, 劉仲武, 余紅雅, 鐘喜春. 高性能Ni基合金-TiB₂納米粉末及其制備方法[P]. 廣東: CN103556002A, 2014-02-05.

[96]劉仲武, 李偉, 鄭志剛, 趙利忠. 一種提供釹鐵硼輔助鑄造磁場(chǎng)的永磁體系統(tǒng)[P]. 廣東: CN103489561A, 2014-01-01.

[97]鐘喜春, 張啟沛, 邱萬(wàn)奇, 匡同春, 曾德長(zhǎng), 劉仲武, 余紅雅. 一種工模具材料表面的TiN雙層鍍層及其制備方法[P]. 廣東: CN103397295A, 2013-11-20.

[98]鐘喜春, 張啟沛, 曾德長(zhǎng), 邱萬(wàn)奇, 匡同春, 劉仲武, 余紅雅. 一種切削刀具材料表面的Ti/TiN/TiAlN復(fù)合鍍層及其制備方法[P]. 廣東: CN103334082A, 2013-10-02.

[99]曾德長(zhǎng), 檀竹才, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅. 一種MnFePSi基室溫磁制冷材料及其制備方法[P]. 廣東: CN102881393A, 2013-01-16.

[100]鐘喜春, 劉名濤, 劉仲武, 曾德長(zhǎng), 邱萬(wàn)奇, 李尚周. 一種納米復(fù)合結(jié)構(gòu)顆粒喂料及其制備方法[P]. 廣東: CN102864403A, 2013-01-09.

[101]鐘喜春, 劉名濤, 曾德長(zhǎng), 劉仲武, 邱萬(wàn)奇, 余紅雅, 李尚周. 一種高溫合金表面納米復(fù)合涂層及其制備方法[P]. 廣東: CN102828137A, 2012-12-19.

[102]鐘喜春, 閔繼雄, 曾德長(zhǎng), 劉仲武, 余紅雅, 邱萬(wàn)奇. 一種Gd-Mn基非晶磁制冷材料及其制備方法[P]. 廣東: CN102828129A, 2012-12-19.

[103]曾德長(zhǎng), 高貝貝, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 金智淵, 金勇, 高云. 一種Gd基磁制冷材料及其制備方法[P]. 廣東: CN102703038A, 2012-10-03.

[104]劉泓, 陶洪亮, 劉仲武, 宋鵬濤, 劉躍華. 金屬陶瓷結(jié)合劑金剛石/CBN 砂輪的制備工藝[P]. 廣東: CN102363289A, 2012-02-29.

[105]曾德長(zhǎng), 柏占, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 邱萬(wàn)奇. 一種室溫磁制冷機(jī)用永磁體系統(tǒng)[P]. 廣東: CN102360700A, 2012-02-22.

[106]鐘喜春, 劉云鶴, 黃有林, 曾德長(zhǎng), 劉仲武, 余紅雅, 邱萬(wàn)奇. 一種粘結(jié)復(fù)合磁體及其制備方法[P]. 廣東: CN102360918A, 2012-02-22.

[107]劉仲武, 鐘明龍, 邱萬(wàn)奇, 鐘喜春, 余紅雅, 焦東玲, 曾德長(zhǎng). 一種納米結(jié)構(gòu)三氧化鉬的制備方法[P]. 廣東: CN102351249A, 2012-02-15.

[108]曾德長(zhǎng), 柏占, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 邱萬(wàn)奇. 擺動(dòng)式室溫磁制冷機(jī)[P]. 廣東: CN102305491A, 2012-01-04.

[109]邱萬(wàn)奇, 潘建偉, 吳強(qiáng), 劉仲武, 鐘喜春, 余紅雅, 曾德長(zhǎng). 一種鋼鐵基鑲嵌金剛石涂層及其制備方法[P]. 廣東: CN102286743A, 2011-12-21.

[110]劉仲武, 鐘明龍, 邱萬(wàn)奇, 鐘喜春, 余紅雅, 曾德長(zhǎng). 一種一維金屬氧化物納米材料的制備方法[P]. 廣東: CN102259932A, 2011-11-30.

[111]鐘喜春, 唐鵬飛, 曾德長(zhǎng), 劉仲武, 邱萬(wàn)奇, 余紅雅. 一種Gd基室溫磁制冷材料及其制備方法[P]. 廣東: CN102242301A, 2011-11-16.

[112]鐘喜春, 曾德長(zhǎng), 劉仲武, 邱萬(wàn)奇, 余紅雅. 一種稀土錫基低溫磁制冷材料及其制備方法[P]. 廣東: CN102162056A, 2011-08-24.

[113]劉仲武, 蘇昆朋, 邱萬(wàn)奇, 余紅雅, 鐘喜春, 曾德長(zhǎng). 一種交換耦合雙相納米復(fù)合永磁顆粒及其制備方法[P]. 廣東: CN102000816A, 2011-04-06.

[114]邱萬(wàn)奇, 劉仲武, 孫歌, 余紅雅, 鐘喜春, 曾德長(zhǎng), 蔡明. 一種低溫?fù)诫s發(fā)光氮化鋁薄膜及其制備方法[P]. 廣東: CN101948999A, 2011-01-19.

[115]劉仲武, 曾德長(zhǎng). 用于電磁波吸收材料的多層空心金屬微球的制備方法[P]. 廣東: CN101941076A, 2011-01-12.

[116]邱萬(wàn)奇, 曾艷祥, 鐘喜春, 余紅雅, 劉仲武, 曾德長(zhǎng). 一種銅-金剛石復(fù)合鍍層及其制備方法[P]. 廣東: CN101941311A, 2011-01-12.

[117]邱萬(wàn)奇, 劉仲武, 鐘喜春, 余紅雅, 曾德長(zhǎng), 賀禮賢. 一種銅基鑲嵌結(jié)構(gòu)界面金剛石涂層及其制備方法和應(yīng)用[P]. 廣東: CN101935837A, 2011-01-05.

[118]邱萬(wàn)奇, 孫歌, 鐘喜春, 余紅雅, 劉仲武, 曾德長(zhǎng). 一種熱作模具鋼的低溫滲碳方法[P]. 廣東: CN101928912A, 2010-12-29.

[119]邱萬(wàn)奇, 曾艷祥, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng). 一種銅-鉻-鉬三元合金鍍層及其制備方法[P]. 廣東: CN101892502A, 2010-11-24.

發(fā)明授權(quán)：

[1]鐘喜春, 吳雨財(cái), 劉仲武, 余紅雅, 邱萬(wàn)奇, 焦東玲. 一種基于高溫SPS粉末自粘結(jié)技術(shù)的La-Fe-Si基磁制冷塊體材料及其制備方法[P]. 廣東省: CN114700491B, 2023-08-18.

[2]邱萬(wàn)奇, 李航, 焦東玲, 鐘喜春, 劉仲武. 一種制備單相Fe-2B滲層的方法及其應(yīng)用[P]. 廣東省: CN114774842B, 2023-06-20.

[3]劉仲武, 張家勝, 廖雪峰, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種釹鐵硼厚磁體的多層晶界擴(kuò)散方法[P]. 廣東省: CN114334415B, 2023-03-24.

[4]劉仲武, 宋文玥, 何家毅, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種利用宏觀不均勻擴(kuò)散制備高矯頑力釹鐵硼磁體的方法[P]. 廣東省: CN113808839B, 2022-12-16.

[5]余紅雅, 賴曉翔, 鐘喜春, 劉仲武, 馮越. 具有雙包覆層的FeSiCr合金磁粉及其制備方法、磁粉芯及其制備方法[P]. 廣東省: CN113096906B, 2022-11-18.

[6]余紅雅, 馮越, 劉仲武, 賴曉翔, 鐘喜春. 一種FeSiCr磁粉芯及其制備方法[P]. 廣東省: CN113410020B, 2022-11-18.

[7]鐘喜春, 胡錦文, 劉仲武, 余紅雅, 張虎, 龍克文. 一種錳鋅鐵氧體預(yù)燒料及其制備工藝[P]. 廣東省: CN112723872B, 2022-10-14.

[8]劉仲武, 何家毅, 宋文玥, 廖雪峰, 余紅雅, 鐘喜春. 一種釹鐵硼磁體用合金復(fù)合晶界擴(kuò)散劑及其制備方法與應(yīng)用[P]. 廣東省: CN112941457B, 2022-09-20.

[9]鐘偉杰, 焦東玲, 劉仲武, 許文勇, 李周, 張國(guó)慶. 一種鎳基高溫合金粉末中非金屬夾雜物的定量表征方法[P]. 廣東省: CN107607567B, 2022-08-12.

[10]邱萬(wàn)奇, 羅文斌, 焦東玲, 鐘喜春, 劉仲武. 一種FeNi合金層、電鍍液及制備方法和應(yīng)用[P]. 廣東省: CN113215496B, 2022-06-14.

[11]廖紹偉, 黃澤輝, 劉仲武, 車(chē)文荃, 薛泉. 一種聲波諧振電小天線及其制備方法[P]. 廣東省: CN113224509B, 2022-06-14.

[12]劉仲武, 鐘喜春, 其他發(fā)明人請(qǐng)求不公開(kāi)姓名. 一種接觸式磁性壓力傳感器[P]. 廣東省: CN112857653B, 2022-05-17.

[13]王永飛, 劉仲武, 關(guān)濤, 劉艷杰. 一種抗直流分量互感器用鐵基非晶軟磁合金及其制備方法[P]. 廣東省: CN110993240B, 2022-02-18.

[14]焦東玲, 鐘偉杰, 劉仲武, 許文勇, 李周, 張國(guó)慶. 微米級(jí)鎳基高溫合金粉末透射電鏡薄膜樣品的制備方法[P]. 廣東省: CN107121316B, 2021-12-21.

[15]劉仲武, 唐春梅, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種核殼結(jié)構(gòu)CuO/ZnO納米棒陣列及其制備方法[P]. 廣東省: CN110438443B, 2021-11-23.

[16]劉仲武, 余紅雅, 鐘喜春, 張虎, 龍克文. 一種高性能NiZn鐵氧體材料及其制備方法[P]. 廣東省: CN109912302B, 2021-11-16.

[17]王永飛, 劉仲武, 關(guān)濤, 劉艷杰. 一種精密電流檢測(cè)用鈷基非晶軟磁合金及其制備方法[P]. 廣東省: CN110983112B, 2021-11-02.

[18]劉仲武, 唐春梅, 余紅雅, 鐘喜春, 邱萬(wàn)奇. 一種氧化銅/銅鉬氧化物納米異質(zhì)結(jié)構(gòu)材料及其制備方法[P]. 廣東省: CN110510655B, 2021-10-26.

[19]邱萬(wàn)奇, 王耀輝, 焦東玲, 鐘喜春, 劉仲武. 一種滲硼劑及電場(chǎng)輔助低溫制備單相Fe-2B滲層的方法[P]. 廣東省: CN109972079B, 2021-09-21.

[20]邱萬(wàn)奇, 楊宇, 程奕天, 焦東玲, 鐘喜春, 劉仲武. 一種AlCr+α-Al-2O-3濺射靶材及制備與應(yīng)用[P]. 廣東省: CN109989044B, 2021-09-21.

[21]鐘喜春, 董旭濤, 劉仲武, 余紅雅, 張輝, 邱萬(wàn)奇. 一種基于熱壓反應(yīng)燒結(jié)的La-Fe-Si基磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN110534276B, 2021-09-21.

[22]張輝, 胡景宇, 劉仲武, 李豪, 余紅雅, 鐘喜春. 一種具有擇優(yōu)取向的Fe-Si-B-P-Cu納米晶軟磁合金材料及其制備方法[P]. 廣東省: CN111411312B, 2021-08-10.

[23]邱萬(wàn)奇, 萬(wàn)健, 焦東玲, 鐘喜春, 劉仲武. 一種富Al剛玉結(jié)構(gòu)Al-Cr-O薄膜及其制備方法[P]. 廣東省: CN111455333B, 2021-08-10.

[24]鐘喜春, 董旭濤, 彭得然, 劉仲武, 焦東玲, 張輝, 余紅雅, 邱萬(wàn)奇. 一種La-Fe-Si基室溫磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN109454225B, 2021-07-20.

[25]趙利忠, 李成利, 劉仲武, 李領(lǐng)偉. 一種納米晶釹鐵硼磁體的制備工藝[P]. 浙江省: CN108987016B, 2021-06-18.

[26]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅, 胡錦文. 一種低損耗石榴石鐵氧體材料的制備方法[P]. 廣東省: CN110128129B, 2021-06-15.

[27]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅. 一種二氧化硅-石墨烯復(fù)合包覆改性AB5型儲(chǔ)氫合金的方法[P]. 廣東省: CN110052601B, 2021-06-11.

[28]余紅雅, 左建亮, 劉仲武, 程丹妮, 吉麗. 一種耐高溫耐腐蝕高熵非晶軟磁合金及其制備方法[P]. 廣東省: CN109930085B, 2021-05-14.

[29]劉仲武, 鄧沃湛, 鐘喜春, 余紅雅. 一種二次料制備錳鋅鐵氧體的氧分壓控制燒結(jié)方法[P]. 廣東省: CN108484153B, 2021-01-19.

[30]邱萬(wàn)奇, 何家毅, 焦東玲, 鐘喜春, 劉仲武. 一種CrFe+(Cr,Fe)N代鉻鍍層及其制備方法[P]. 廣東省: CN110055495B, 2020-12-22.

[31]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅. 一種鎂基儲(chǔ)氫合金及其制備方法[P]. 廣東省: CN109898002B, 2020-10-27.

[32]張虎, 鐘喜春, 龍克文, 劉仲武, 余紅雅. 一種表面微孔化鍍鎳儲(chǔ)氫合金的制備方法[P]. 廣東省: CN109913700B, 2020-10-27.

[33]邱萬(wàn)奇, 王耀輝, 熊成, 焦東玲, 劉仲武, 鐘喜春, 張輝. 一種柔性硼勢(shì)固體滲硼劑及制備單相Fe_2B滲硼層的方法[P]. 廣東省: CN109023226B, 2020-09-22.

[34]劉仲武, 田憶蘭, 鐘喜春, 邱萬(wàn)奇, 焦東玲. 一種利用釹鐵硼固體廢料制備N(xiāo)d_2Fe_(14)B/α-Fe納米復(fù)合磁粉的方法[P]. 廣東省: CN108470616B, 2020-07-28.

[35]劉仲武, 許可, 鐘喜春, 邱萬(wàn)奇, 焦東玲. 一種釤鐵氮永磁粉末的制備方法[P]. 廣東省: CN108777204B, 2020-05-22.

[36]邱萬(wàn)奇, 楊宇, 王耀輝, 程奕天, 焦東玲, 劉仲武, 鐘喜春. 一種三層膜結(jié)構(gòu)涂層及其制備方法[P]. 廣東省: CN109082641B, 2020-05-22.

[37]劉仲武, 張振揚(yáng), 鐘喜春, 邱萬(wàn)奇. 一種雙合金納米晶稀土永磁體及其制備方法[P]. 廣東省: CN107424695B, 2019-12-10.

[38]邱萬(wàn)奇, 李浩, 劉仲武, 莫東強(qiáng), 孫歌, 盧啟棠. 一種銅基嵌入式組合熱沉及其制備方法[P]. 廣東省: CN107871722B, 2019-10-18.

[39]鐘喜春, 彭得然, 董旭濤, 劉仲武, 焦東玲, 邱萬(wàn)奇, 張輝. 一種基于晶界擴(kuò)散技術(shù)的LaFeSi基磁制冷復(fù)合塊體材料及其制備方法[P]. 廣東省: CN108242302B, 2019-07-16.

[40]鐘喜春, 封小亮, 劉仲武, 焦東玲, 邱萬(wàn)奇. 一種La-Fe基磁制冷復(fù)合材料及其制備方法[P]. 廣東省: CN106381133B, 2019-07-12.

[41]邱萬(wàn)奇, 甄永輝, 王書(shū)林, 劉仲武, 鐘喜春, 焦東玲. 一種鑲嵌結(jié)構(gòu)界面α-氧化鉻涂層及其制備方法[P]. 廣東省: CN106967947B, 2019-06-18.

[42]邱萬(wàn)奇, 王書(shū)林, 鐘喜春, 劉仲武, 焦東玲. 一種納米α-氧化鋁/氧化鉻復(fù)合涂層及其制備方法[P]. 廣東省: CN106939404B, 2019-04-09.

[43]鐘喜春, 黃旭文, 沈小艷, 劉仲武, 焦東玲, 張輝, 邱萬(wàn)奇. 一種Gd-Co基非晶納米晶磁制冷材料及其制備方法[P]. 廣東省: CN106702245B, 2019-01-18.

[44]鐘喜春, 沈小艷, 劉仲武, 焦東玲, 邱萬(wàn)奇. 一種復(fù)合磁制冷材料及其制備方法[P]. 廣東省: CN106601399B, 2018-05-15.

[45]雷小洪, 林濤, 劉仲武. 手動(dòng)升降機(jī)械控制器及其控制方法[P]. 廣東省: CN105576892B, 2017-11-10.

[46]曾德長(zhǎng), 馬海力, 劉仲武, 余紅雅. 一種納米結(jié)構(gòu)可控的稀磁半導(dǎo)體材料及其制備方法與裝置[P]. 廣東省: CN104200947B, 2017-10-20.

[47]曾德長(zhǎng), 吳姚莎, 李尚周, 劉仲武, 余紅雅, 鐘喜春. Ni基合金-TiB₂納米涂層的制備方法[P]. 廣東省: CN103589984B, 2017-01-18.

[48]劉仲武, 趙利忠, 鄭志剛, 李偉, 王剛, 鐘喜春, 余紅雅, 曾德長(zhǎng). 一種釹鐵硼永磁材料及制備方法與磁場(chǎng)輔助直接鑄造裝置[P]. 廣東省: CN103894587B, 2016-10-05.

[49]余紅雅, 朱忠仁, 鄭志剛, 曾德長(zhǎng), 鐘喜春, 劉仲武. 一種Mn-Fe-P-Si磁制冷材料及其制備方法[P]. 廣東省: CN104357727B, 2016-10-05.

[50]劉仲武, 李偉, 鄭志剛, 趙利忠. 一種提供釹鐵硼輔助鑄造磁場(chǎng)的永磁體系統(tǒng)[P]. 廣東省: CN103489561B, 2016-08-17.

[51]劉仲武, 鄧向星, 肖志瑜, 余紅雅, 鐘喜春, 曾德長(zhǎng), 鄭志剛, 王剛. 一種各向異性納米晶釹鐵硼磁體及其制備方法與應(yīng)用[P]. 廣東省: CN104134529B, 2016-08-17.

[52]鄭志剛, 余紅雅, 張家勝, 劉仲武, 曾德長(zhǎng). 一種Fe基非晶納米晶軟磁材料及其制備方法[P]. 廣東省: CN104233121B, 2016-06-29.

[53]曾德長(zhǎng), 檀竹才, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅. 一種MnFePSi基室溫磁制冷材料及其制備方法[P]. 廣東省: CN102881393B, 2016-06-22.

[54]曾德長(zhǎng), 鄭惠豐, 余紅雅, 劉仲武, 匡同春. 一種化學(xué)拋光液及合金表面拋光處理方法[P]. 廣東省: CN103757636B, 2016-06-22.

[55]曾德長(zhǎng), 吳姚莎, 李尚周, 劉仲武, 余紅雅, 鐘喜春. 高性能Ni基合金-TiB-(2)納米粉末及其制備方法[P]. 廣東省: CN103556002B, 2016-03-02.

[56]鐘喜春, 張啟沛, 邱萬(wàn)奇, 匡同春, 曾德長(zhǎng), 劉仲武, 余紅雅. 一種工模具材料表面的TiN雙層鍍層及其制備方法[P]. 廣東省: CN103397295B, 2016-03-02.

[57]焦東玲, 黎民頌, 曾德長(zhǎng), 劉仲武. 一種在低碳合金鋼表面制備的高氮奧氏體層及制備方法[P]. 廣東省: CN103774085B, 2016-03-02.

[58]鐘喜春, 張啟沛, 曾德長(zhǎng), 邱萬(wàn)奇, 匡同春, 劉仲武, 余紅雅. 一種切削刀具材料表面的Ti/TiN/TiAlN復(fù)合鍍層及其制備方法[P]. 廣東省: CN103334082B, 2016-01-06.

[59]鐘喜春, 閔繼雄, 曾德長(zhǎng), 劉仲武, 余紅雅, 邱萬(wàn)奇. 一種Gd-Mn基非晶磁制冷材料的制備方法[P]. 廣東省: CN102828129B, 2014-12-03.

[60]曾德長(zhǎng), 高貝貝, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 金智淵, 金勇, 高云. 一種Gd基磁制冷材料及其制備方法[P]. 廣東省: CN102703038B, 2014-10-08.

[61]鐘喜春, 劉名濤, 曾德長(zhǎng), 劉仲武, 邱萬(wàn)奇, 余紅雅, 李尚周. 一種高溫合金表面納米復(fù)合涂層及其制備方法[P]. 廣東省: CN102828137B, 2014-06-11.

[62]曾德長(zhǎng), 柏占, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 邱萬(wàn)奇. 擺動(dòng)式室溫磁制冷機(jī)[P]. 廣東省: CN102305491B, 2014-05-07.

[63]曾德長(zhǎng), 柏占, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 邱萬(wàn)奇. 一種室溫磁制冷機(jī)用永磁體系統(tǒng)[P]. 廣東省: CN102360700B, 2014-04-02.

[64]劉仲武, 鐘明龍, 邱萬(wàn)奇, 鐘喜春, 余紅雅, 焦東玲, 曾德長(zhǎng). 一種納米結(jié)構(gòu)三氧化鉬的制備方法[P]. 廣東省: CN102351249B, 2013-08-28.

[65]邱萬(wàn)奇, 曾艷祥, 鐘喜春, 余紅雅, 劉仲武, 曾德長(zhǎng). 一種銅-金剛石復(fù)合鍍層及其制備方法[P]. 廣東省: CN101941311B, 2013-07-17.

[66]劉仲武, 蘇昆朋, 邱萬(wàn)奇, 余紅雅, 鐘喜春, 曾德長(zhǎng). 一種交換耦合雙相納米復(fù)合永磁顆粒及其制備方法[P]. 廣東省: CN102000816B, 2013-07-03.

[67]鐘喜春, 曾德長(zhǎng), 劉仲武, 邱萬(wàn)奇, 余紅雅. 一種稀土錫基低溫磁制冷材料及其制備方法[P]. 廣東省: CN102162056B, 2013-07-03.

[68]邱萬(wàn)奇, 潘建偉, 吳強(qiáng), 劉仲武, 鐘喜春, 余紅雅, 曾德長(zhǎng). 一種鋼鐵基鑲嵌金剛石涂層及其制備方法[P]. 廣東省: CN102286743B, 2013-02-13.

[69]邱萬(wàn)奇, 劉仲武, 鐘喜春, 余紅雅, 曾德長(zhǎng), 賀禮賢. 一種銅基鑲嵌結(jié)構(gòu)界面金剛石涂層及其制備方法和應(yīng)用[P]. 廣東省: CN101935837B, 2012-05-30.

[70]邱萬(wàn)奇, 孫歌, 鐘喜春, 余紅雅, 劉仲武, 曾德長(zhǎng). 一種熱作模具鋼的低溫滲碳方法[P]. 廣東省: CN101928912B, 2012-05-23.

[71]邱萬(wàn)奇, 曾艷祥, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng). 一種銅-鉻-鉬三元合金鍍層及其制備方法[P]. 廣東省: CN101892502B, 2012-02-01.

[72]邱萬(wàn)奇, 劉仲武, 孫歌, 余紅雅, 鐘喜春, 曾德長(zhǎng), 蔡明. 一種低溫?fù)诫s發(fā)光氮化鋁薄膜及其制備方法[P]. 廣東省: CN101948999B, 2011-12-28.

實(shí)用新型：

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[2]李暉云, 李晨暉, 聶勇, 崔寧, 劉允中, 李小強(qiáng), 曲盛官, 劉仲武. 一種帶超聲振動(dòng)系統(tǒng)的3D打印粉缸結(jié)構(gòu)及鋪粉送粉系統(tǒng)[P]. 廣東省: CN213794214U, 2021-07-27.

[3]李暉云, 李晨暉, 聶勇, 崔寧, 劉允中, 李小強(qiáng), 曲盛官, 劉仲武. 一種3D打印刮刀[P]. 廣東省: CN213798112U, 2021-07-27.

[4]曾志超, 魯曉燕, 田憶蘭, 劉仲武. 一種超薄散熱型磁場(chǎng)屏蔽片[P]. 廣東: CN207978250U, 2018-10-16.

[5]劉仲武, 趙利忠, 鄭志剛, 李偉, 王剛, 鐘喜春, 余紅雅, 曾德長(zhǎng). 一種釹鐵硼永磁材料的磁場(chǎng)輔助直接鑄造裝置[P]. 廣東: CN203817347U, 2014-09-10.

[6]劉仲武, 李偉, 鄭志剛, 趙利忠. 一種提供釹鐵硼輔助鑄造磁場(chǎng)的永磁體系統(tǒng)[P]. 廣東: CN203521094U, 2014-04-02.

[7]鐘喜春, 張啟沛, 曾德長(zhǎng), 邱萬(wàn)奇, 匡同春, 劉仲武, 余紅雅. 一種切削刀具材料表面的復(fù)合鍍層[P]. 廣東: CN203360554U, 2013-12-25.

[8]曾德長(zhǎng), 柏占, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 邱萬(wàn)奇. 一種室溫磁制冷機(jī)用永磁體系統(tǒng)[P]. 廣東: CN202258630U, 2012-05-30.

[9]曾德長(zhǎng), 柏占, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅, 邱萬(wàn)奇. 擺動(dòng)式室溫磁制冷機(jī)[P]. 廣東: CN202216447U, 2012-05-09. 

發(fā)表英文論文：

在Adv Mater、JACS、Appl Phys Lett、Acta Mater、Mater Design、J Appl Phys等國(guó)際和國(guó)內(nèi)學(xué)術(shù)刊物上發(fā)表論文380余篇，SCI收錄280余篇。

[1] Jiayi He, Xuefeng Liao, Xuexia Lan, Wanqi Qiu, Hongya Yu, Jiasheng Zhang, Wenbing Fan, Xichun Zhong, Zhongwu Liu*, Annealed Al-Cr coating: A hard anticorrosive coating with grain boundary modification effect for sintered Nd-Fe-B magnets, Journal of Alloys and Compounds, 870 (2021) 159229

[2] Xuefeng Liao, Jiasheng Zhang, Jiayi He, Wenbin Fan, Hongya Yu, Xichun Zhong, Zhongwu Liu*, Development of nanocrystalline multi-component (Ce,La,Y)-Fe-B alloys without critical RE elements for cost-effective permanent magnets, Journal of Materials Science and Technology, 76 (2021) 215-221

[3] Jiasheng Zhang, Xuefeng Liao, Ke Xu, Jiayi He, Wenbin Fan, Hongya Yu, Xichun Zhong, Zhongwu Liu*, Enhancement in hard magnetic properties of nanocrystalline (Ce,Y)–Fe–Si–B alloys due to microstructure evolution caused by chemical heterogeneity, Journal of Materials Chemistry C, 8 (2020) 14855-14863

[4] Jingwen Hu, Zhaoyu Li, Hongya Yu, Xichun Zhong, Zhongwu Liu*, Kewen Long, Jing Li*, Modifying the soft magnetic properties of Mn-Zn ferrites by Ce₂O ₃-doping and sintering temperature optimization, Journal of Electronic Materials, 49 (2020) 6501-6509 

[5] Ke Xu, Junru Xiao, Zhongwu Liu*, Effective rare earth extraction from Nd-Fe-B waste by liquid cuprum extraction method, Journal of Rare Earths, 38 (2020) 1337-1343

[6] Lizhong Zhao, Huacun Tian, Xichun Zhong, Zhongwu Liu, Jean-Marc Greneche, R.V. Ramanujan, Influence of Gd and Dy substitution on the magnetic properties and magnetocaloric effect of Fe78−xRExSi4Nb5B12Cu1 amorphous alloys, Journal of Rare Earths, 38 (2020) 1317-1321

[7] Xuan Zhou, Zhongwu Liu, Hongya Yu, Hui Zhang, Guoqing Zhang, Composition optimization of rapidly quenched binary Co-Zr and (Co,Fe)-Zr alloys for rare earth free permanent magnetic materials, Physica B, 599 (2020) 412549.

[8] Yukun Liu, Jiayi He, Hongya Yu, Xichun Zhong, Yunzhong Liu, Xiaoqiang Li, Zhongwu Liu*, Understanding the composition effects on the hot-deformed Nd-Fe-B magnets based on two different melt spun powders, Journal of Magnetism and Magnetic Materials, 516 (2020) 167339

[9] Yukun Liu, Jiayi He, Hongya Yu, Zhongwu Liu, Guoqing Zhang, Restoring and enhancing the coercivity of waste sintered (Nd,Ce,Gd)FeB magnets by direct Pr-Tb-Cu grain boundary diffusion, Applied Physics A, 126 (8) (2020) 657

[10] Mozaffar Hussain, Xuefeng Liao, Rizwan Akram, Gleb Milyutin, Madiha Khan, and Zhongwu Liu, Elevated temperature behavior of rapidly quenched La/Ce substituted nanocrystalline NdFeB alloys with various compositions, Journal of Alloys and Compounds, 845 (2020) 156292

[11] Abdul Jabbar Khan, Asad Khan, Muhammad Sufyan Javed*, Muhammad Arshid, Sumreen Asim, Muhammad Khalid, Sajid Hussain Siyal, Shahid Hussain, MuddasirHanif, Zhongwu Liu*, Surface assembly of Fe₃O ₄ nanodiscs embedded in reduced graphene oxide as ahigh-performance negative electrode for supercapacitors, Ceramics International, 46 (11) (2020) 19499-19505 

[12] Meixia Wu, Xiang Zhou, Mark Croft, Steven Ehrlich, Syed Khalid, Man-Rong Li, Zhongwu Liu, Sang-Wook Cheong, Single crystal growth and room-temperature magnetocaloric effect of X-type hexaferrite Sr₂Co ₂Fe ₂₈O ₄₆, Inorganic Chemistry, 59 (10) (2020) 6755-6762 

[13] Abdul Jabbar Khan, Muddasir Hanif*, Muhammad Sufyan Javed*, Shahid Hussain, Weijie Zhong, Muhammad Saleem, Zhongwu Liu*, Energy storage properties of hydrothermally processed nanostructured porous CeO₂ nanoparticles, Journal of Electroanalytical Chemistry 865 (2020) 114158 

[14] Xuefeng Liao, Jiasheng Zhang, Wei Li, Abdul Jabbar Khan, Hongya Yu, Xichun Zhong, Zhongwu Liu*, Performance improvement and element segregation behavior in Y substituted nanocrystalline (La,Ce)-Fe-B permanent magnets without critical RE elements, Journal of Alloys and Compounds, 834 (2020) 155226

[15] Yukun Liu, Xuefeng Liao, Jiayi He, Hongya Yu, Xichun Zhong, Qing Zhou, Zhongwu Liu*, Magnetic properties and microstructure evolution of in-situ Tb-Cu diffusion treated hot-deformed Nd-Fe-B magnets, Journal of Magnetism and Magnetic Materials, 504 (2020) 166685

[16] Xichun Zhong, X.T. Dong, D.R. Peng, J.H. Huang, H. Zhang, D.L. Jiao, H. Zhang, Z.W. Liu, R.V. Ramanujan, Table-like magnetocaloric effect and enhanced refrigerant capacity of HPS La(Fe,Si)13 based composites by Ce-Co grain boundary diffusion, Journal of Materials Science, 55 (2020) 5908-5919

[17] Xuan Zhou, Jiasheng Zhang, Xuefeng Liao, Jiayi He, Kaili Li, Zhongwu Liu*, Beneficial effects of Cr addition on the nanocrystalline Si and B modified Co-Zr permanent magnetic alloys, Journal of Magnetism and Magnetic Materials, 501 (2020) 166483.

[18] Kaili Li, Danni Cheng, Hongya Yu, Zhongwu Liu*, Process optimization and magnetic properties of soft magnetic composite cores based on phosphated and mixed resin coated Fe powders, Journal of Magnetism and Magnetic Materials, 501 (2020) 166455.

[19] Chunmei Tang, Fei Sun, Zoufei Chen, Hongya Yu, Deyang Chen, Zhongwu Liu*, Facile synthesis and nanoscale related physical properties of core-shell structured CuO/ZnO nanorod arrays on Si substrate, Applied Surface Science, 509 (2020) 144903

[20] D.R. Peng, X.C. Zhong, X.T. Dong, J.H. Huang, H. Zhang, L. Ma, S.M. Wu, D.L. Jiao, Z.W. Liu, H.Y. Yu, H. Zhang, W.Q. Qiu, R.V. Ramanujan, Microstructure, phase evolution and magnetocaloric properties of LaFe11.6Si1.4/La70Co30 composite, Journal of Alloys and Compounds, 823 (2020) 153726

[21] Ke Xu, Zhongwu Liu*, Hongya Yu, Xichun Zhong, Hui Zhang, Zhijian Liu, Improved efficiency for preparing hard magnetic Sm2Fe17NX powders by plasma assisted ball milling followed by nitriding, Journal of Magnetism and Magnetic Materials, 500 (2020) 166383

[22] Danni Cheng, Kaili Li, Hongya Yu*, Jianliang Zuo, Xi Chen, Baochun Guo, Guangze Han, Zhongwu Liu, Effects of Secondary Particle Size Distribution on the Magnetic Properties of Carbonyl Iron Powder Cores, Journal of Magnetism and Magnetic Materials, 497 (2020) 166062

[23] Abdul Jabbar Khan, Muhammad Sufyan Javed*, Muddasir Hanif, Yasir Abbas, Xuefeng Liao, Gulzar Ahmed, Muhammad Saleem, Sining Yun, Zhongwu Liu*, Facile synthesis of a novel Fe3O4-rGO-MoO ₃ ternary nano-composite for high performance hybrid energy storage applications, Ceramic International, 46 (3) (2020) 3124-3131 

[24] S.L Hu, J. Liu, Y.K Liu, J.S. Zhang, H.Y. Yu, K.P. Su, Y.L. Huang, Z.W. Liu, Enhancing the properties of spark-plasma-sintered nanocrystalline NdFeB magnets by the addition of Cu-Zn alloy and Dy2O ₃ powders, Journal of Electronic Materials, 49 (2020) 720-727 

[25] H.X. Zeng, Z.W. Liu, J.S. Zhang, X.F. Liao, H.Y. Yu, Towards the diffusion source cost reduction for NdFeB grain boundary diffusion process, Journal of Materials Science and Technology, 36 (2020) 50-54

[26] D.N. Chen, L. Huang, H.Y. Yu, X.C. Zhong, Z.W. Liu, Improving the magnetic properties of FeSiB soft magnetic composites by adding untreated or phosphated Fe powders, Journal of Magnetics, 24 (3) (2019) 485-490

[27] Lv Wangyan, Zheng Keqin, Wang Yibo, Liu Zhongwu, Influence of electric current on the corrosion behavior of Cu for the electric contact in the isolation switch, Materials and Corrosion, 70 (2019) 1900-1906

[28] K.P. Su, S.L. Hu, H.O. Wang, S. Huang, X.X. Chen, J.J. Liu, D.X. Huo, L. Ma, S. L. Hu, Zhongwu Liu, Structural and magnetic properties of Mn50Al46Cu4C3 flakes obtained by surfactant-assisted ball milling, Materials Research Express, 6 (2019) 106125

[29] Wei Li, Lizhong Zhao, Zhongwu Liu*, Micromagnetic investigation by a simplified approach on the demagnetization fields of the permanent magnets with nonmagnetic phase inside, Frontier of Materials, 13 (2019) 323-333

[30] Gulzar Ahmed, Fazal Raziq, Muddasir Hanif, Javid Khan, Khurram Munawar, Mingmei Wu, Xingzhong Cao, Zhongwu Liu, Oxygen-Cluster-Modified Anatase with Graphene Leads to Efficient and Recyclable Photo-catalytic Conversion of CO₂ to CH₄ supported by the Positron Annihilation Study, Scientific Reports, 9 (2019) 13103. 

[31] Xuefeng Liao, Jiasheng Zhang, Hongya Yu, Xichun Zhong, Abdul Jabbar Khan, Xuan Zhou, Hui Zhang, Z.W. Liu*, Exceptional elevated temperature behavior of nanocrystalline stoichiometric Y2Fe14B alloys with La or Ce substitutions, Journal of Materials Science, 54 (2019) 14577-14587

[32] H.X. Zeng, H.Y. Yu, Q. Zhou, J.S. Zhang, X.F. Liao, Z.W. Liu*, Clarifying the effects of La and Ce in the grain boundary diffusion sources on sintered NdFeB magnets, Materials Research Express, 6 (2019) 106105

[33] Huixin Zeng, Qixiang Wang, Jiasheng Zhang, Xichun Zhong, Hongya Yu, Zhongwu Liu*, Grain boundary diffusion treatment of sintered NdFeB magnets by low cost La-Al-Cu alloys with various Al/Cu ratios, Journal of Magnetism and Magnetic Materials, 490 (2019) 165498

[34] Abdul Jabbar Khan, Muddasir Hanif, Muhammad Sufyan Javed, Shahid Hussain*, Zhongwu Liu*, Synthesis, characterization and charge storage properties of C60-fullerene microparticles as a flexible negative electrode for supercapacitors, Journal of Materials Science: Materials in Electronics, 30(9) (2019) 8568-8576

[35] Xuefeng Liao, Jiasheng Zhang, Hongya Yu, Xichuan Zhong, Yukun Liu, Yitong Liu, Zhongwu Liu* Understanding the phase structure, magnetic properties and anti-corrosion behavior of melt-spun (La,Y)2Fe14B alloys, Journal of Magnetism and Magnetic Materials, 489 (2019) 165444

[36] J.S. Zhang, W. Li, X.F. Liao, H.Y. Yu, L.Z. Zhao, H.X. Zeng, D.R. Peng, Z.W. Liu*, Improving the hard magnetic properties by intragrain pinning for Ta doped nanocrystalline Ce-Fe-B alloys, Journal of Materials Science and Technology, 35 (2019) 1877-1885

[37] Chunmei Tang, Fei Sun, Zoufei Chen, Deyang Chen, Zhongwu Liu*, Improved thermal oxidation growth of non-flaking CuO nanorod array on Si substrate from Cu film and their nanoscale electrical properties for electronic devices, Ceramics International, 45 (2019) 14562-14567

[38] Yitian Cheng, Wanqi Qiu, Kesong Zhou, Yu Yang, Dongling Jiao, Zhongwu Liu, Xichun Zhong, Low-temperature deposition of α-Al2O ₃ film using Al+α-Al₂ O ₃ composite target by radio frequency magnetron sputtering, Materials Research Express, 6(8) (2019) 086412 

[39] Y.L. Huang, Z.H. Li, X.J. Ge, Z.Q. Shi, Y.H. Hou, G.P. Wang, Z.W. Liu, Z.C. Zhong, Microstructure, magnetic anisotropy, plastic deformation, and magnetic properties: The role of PrCu in hot deformed CeFeB magnets, Journal of Alloys and Compounds, 797 (2019) 1133-1141

[40] X.F. Liao, L.Z. Zhao, J.S. Zhang, G. Ahmed, A.L. Khan, X.H. Zeng, H.Y. Yu, X.C. Zhong, Z.W. Liu, G.Q. Zhang, Clarifying the basic phase structure and magnetic behavior of directly quenched (Ce,La)2Fe14B alloys with various Ce/La ratios, Current Applied Physics, 19 (2019) 733-738

[41] Y.T. Cheng, W.Q. Qiu, K.S. Zhou, D.L. Jiao, Z.W. Liu, X.C. Zhong, H. Zhang, The influence of Cr content on the phase structure of the Al-rich Al-Cr-O films deposited by magnetron sputtering at low temperature, Ceramics International, 45 (2019) 8175-8180.

[42] X. Zhou, Y.L. Tian, H.Y. Yu, H. Zhang, X.C. Zhong, Z.W. Liu*, Synthesis of hard magnetic NdFeB composite particles by recycling the waste using microwave assisted auto-combustion and reduction method, Wastes Management, 87 (2019) 645-651

[43] X.F. Liao, J.S. Zhang, H.Y. Yu, X.C. Zhong, L.Z. Zhao, K. Xu, D.R. Peng, Z.W. Liu*, Maximizing the hard magnetic properties of melt spun Ce-La-Fe-B alloys, Journal of Materials Science, 54 (2019) 7288-7299

[44] Y.L. Tian, Z.W. Liu*, G.Q. Zhang, Recovering REEs from NdFeB wastes with high purity and efficiency by leaching and selective precipitation process with modified agents, Journal of Rare Earths, 37 (2019) 205-210

[45] Xichun Zhong, D. R. Peng; X. T. Dong; J. H. Huang; H. Zhang; D. L. Jiao; H. Zhang; Z. W. Liu; R. V. Ramanujan, Improvement in the magnetocaloric properties of sintered La(Fe,Si)13 based composites processed by La-Co grain boundary diffusion, Journal of Alloys and Compounds, 780 (2019) 873-880

[46] Jiasheng Zhang, Lizhong Zhao, Xuefeng Liao, Huixin Zeng, Deran Peng, Hongya Yu, Xichun Zhong, Zhongwu Liu*, Suppressing the CeFe₂ phase formation and improving the coercivity and thermal stability of Ce-Fe-B alloys by Si substitution, Intermetallics, 107 (2019) 75-80

[47] W. Chen, Y.L. Huang, J.M. Luo, Y.H. Hou, X.J. Ge, Y.W. Guan, Z.W. Liu, Z.C. Zhong, G.P. Wang, Microstructure and improved properties of sintered Nd-Fe-B magnets by grain boundary diffusion of non-rare earth, Journal of Magnetism and Magnetic Materials, 476 (2019) 134-141

[48] Lizhong Zhao*, Chengli Li, Zhipeng Hao, Xiaolian Liu, Xuefeng Liao, Jiasheng Zhang, Kunpeng Su, Lingwei Li, Hongya Yu, Jean-Marc Greneche, Jiaying Jin, Zhongwu Liu*, Influences of element segregation on the magnetic properties in nanocrystalline Nd-Ce-Fe-B alloys, Materials Characterization, 148 (2019) 208-213

[49] Wei Li, Lizhong Zhao, Zhongwu Liu*, Micromagnetic simulation for the effects of core-shell structure on the magnetic properties of dual-main-phase Nd-Fe-B based magnets, Journal of Magnetism and Magnetic Materials, 476 (2019) 302-310

[50] Chunmei Tang, Hanyin Zhang, Dongling Jiao, Renzong Hu* and Zhongwu Liu*, Hierarchical C-doped CuO nanorods on carbon cloth as flexible binder-free anode for lithium storage, Materials and Design, 162 (2019) 52-59.

[51] S.L. Hu, J. Liu, H.Y. Yu, Z.W. Liu*, Synthesis and properties of barium ferrite nano-powders by chemical co-precipitation method, Journal of Magnetism and Magnetic Materials, 473 (2019) 79-84

[52] H.X. Zeng, W. Li, J.S. Zhang, L.Z. Zhao, D.R. Peng, Z.W. Liu*, Significantly enhancing the coercivity of NdFeB magnets by ternary Pr-Al-Cu alloys diffusion and understanding the elements diffusion behavior, Journal of Magnetism and Magnetic Materials, 471 (2019) 97-104

[53] L.Z. Zhao, H.Y. Yu, W. Li, X.F. Liao, J.S. Zhang, X.C. Zhong, Z.W. Liu*, K.P. Su, J.M. Greneche, Magnetic characteristics of the ferromagnetic Fe-rich clusters in bulk amorphous Nd60Fe30Al10 alloy, Journal of Magnetism and Magnetic Materials, 469 (2019) 151-154

[54] X.C. Zhong, X.L. Feng, J.H. Huang, D.L. Jiao, H. Zhang, W.Q. Qiu, Z.W. Liu, R.V. Ramanujan, A bimodal particle size distribution enhances mechanical and magnetocaloric properties of low-temperature hot pressed Sn-bonded  La_0.8Ce>_0.2(Fe_0.95Co_0.05)_11.8Si_1.2 bulk composites, Journal of Magnetism and Magnetic Materials, 469 (2019) 133-137.

[55] D.R. Peng, X.C. Zhong, J.H. Huang, H. Zhang, Y.L. Huang, X.T. Dong, D.L. Jiao, Z.W. Liu, R.V. Ramanujan, Novel processing of Cu-bonded La–Ce–Fe–Co–Si magnetocaloric composites for magnetic refrigeration by low-temperature hot pressing, MRS Communications (2018), 8, 1216–1223

[56] Wei Li, Lizhong Zhao, Zhongwu Liu*, Micromagnetic simulation on the magnetic properties of Nd2Fe14B/α-Fe nanocomposites with Fe nanowires as the soft phase, Frontier of Materials Science. 12 (4), (2018) 348-353

[57] D.L. Jiao, X.C. Zhong, H. Zhang, W.Q. Qiu, Z.W. Liu, R.V. Ramanujan, Thermal stability, magnetic and magnetocaloric properties of Gd55Co35M10 (M=Si, Zr and Nb) melt-spun ribbons, Current Applied Physics, 18 (12) (2018) 1523-1527

[58] X.C. Zhong, H.Y. Yu, Z.W. Liu, R.V. Ramanujan, Influence of crystallization treatment on structure, magnetic properties and magnetocaloric effect of Gd71Ni29 melt-spun ribbons, Current Applied Physics, 18 (11) (2018) 1289-1293

[59] Meixia Wu, Laijun Liu, Zhongwu Liu*, Investigation on the electric and magnetoelectric properties of BaSrCo₂Fe _11.5Ga _0.5O ₂₂ Ferrite, Journal of Materials Science: Materials in Electronics, 29 (20) (2018) 17865-17871 

[60] M. Hussain, Zubair Ahmad, L.Z. Zhao, Rizwan Akram, Z.Y. Zhang, A. Gulzar, X.C. Zhong, Z.W. Liu*, Magnetic properties and exchange interaction of rapidly quenched La or Ce substituted nanocrystalline NdFeB alloys with various compositions, Journal of Magnetism and Magnetic Materials, 468 (2018) 141-147

[61] Xiaoyan Sun, Zhongwu Liu, Zhigang Zheng, Hongya Yu, Dechang Zeng, Improved adsorption of Congo red by nanostructured flower-like FeII-FeIII hydroxy complex, Water Science and Technology, 78 (4) (2018) 506-514

[62] J.S. Zhang, M.L. Zhong, L.Z. Zhao, X.F. Liao, H.X. Zeng, X.C. Zhong, Z.C. Zhong, Z.W. Liu*, Reducing Dy content by Ce substitution in nanocomposite (Nd,Dy)-Fe-B/α-Fe alloys, Journal of Alloys and Compounds, 766 (2018) 1061-1066

[63] Q. Zhou, R.Z. Tang, F.M. Xiao, Z.W. Liu, Coercivity enhancement of Nd-Ce-Fe-B sintered magnets by the grain boundary diffusion process using Nd-Al-Cu alloy, IEEE Transaction on Magnetics. 54(11) (2018) 2102804

[64] Y.X. Wu, H.Y. Yu, Z.W. Liu*, Numerical investigation of the magnetic and electric field distributions produced by biconical transcranial magnetic stimulation coil for optimal design, IEEE Transaction on Magnetics. 54 (11) (2018) 5001105

[65] Hui Zhang, Zhongwu Liu, X.C. Zhong, Dongling Jiao, W.Q. Qiu, Molecular dynamics simulation of diamond and graphite structures without setting any initial Bravais lattice and with Lennard-Jones interatomic potentials,

[66] Hui Zhang, Zhongwu Liu, X.C. Zhong, Dongling Jiao, W.Q. Qiu, Molecular dynamics simulation of crystallization and non-crystallization of Lennard-Jones particles without setting any initial Bravais lattice

[67] Jun Cao, Y. L. Huang, Y. H. Hou, G.Q. Zhang, Z.Q. Shi, Z.C. Zhong, Z.W. Liu, Effects of intergranular phase on the coercivity for MnBi magnets prepared by spark plasma sintering, AIP Advances 8(5) 2018: 055132

[68] X.F. Liao, L.Z. Zhao, J.S. Zhang, X.C. Zhong, D.L. Jiao, Z.W. Liu*, Enhanced formation of 2:14:1 phase in La-based rare earth-iron-boron permanent magnetic alloys by Nd substitution, Journal of Magnetism and Magnetic Materials, 464 (2018) 31-35

[69] D.L. Jiao, X.C. Zhong, W.Q. Qiu, Z.W. Liu, G.Q. Zhang, Structure and electric conduction in pulsed laser-deposited ZnO thin films individually doped with N, P, or Na, Journal of Electronic Materials, 47 (7) (2018) 3521-3528

[70] X.C. Zhong, X.L. Feng, J.H. Huang, Y.L. Huang, Z.W. Liu, R.V. Ramanujan, Influence of particle size on the mechanical properties and magnetocaloric effect of La_0.8Ce _0.2(Fe _0.95Co _0.05) _11.8Si _1.2/Sn composites, Journal of Magnetism and Magnetic Materials, 463 (2018) 23-27 

[71] K.P. Su, C.Y. Zhao, H.O. Wang, S. Huang, Z.W. Liu, D.X. Huo, Synthesis, structure and magnetic properties of CoFe₂O₄ ferrite nanoparticles, Materials Research Express, 5 (5) 2018, 056102 

[72] K.P. Su, H.O. Wang, S. Huang, X.X Chen, J.J. Liu, D.X. Huo, L. Ma, Z.W. Liu, Magnetic anisotropy and enhanced remanence in textured polycrystalline MnAlCuC-based flakes, Journal of Materials Science, 53 (13) (2018) 9823-9829

[73] H.Y. Mo, X.C. Zhong, D.L. Jiao, Z.W. Liu, H. Zhang, W.Q. Qiu, R.V. Ramanujan, Table-like magnetocaloric effect and enhanced refrigerant capacity in crystalline Gd55Co35Mn10 alloy melt spun ribbons, Physics Letters A, 382 (2018) 1679–1684

[74] Lizhong Zhao, Jiasheng Zhang, Gulzar Ahmed, Xuefeng Liao, Zhongwu Liu*, and Jean-Marc Greneche Understanding the element segregation and phase separation in the Ce-substituted Nd-(Fe,Co)-B based alloys, Scientific Reports, 8 (2018) 6826

[75] Gulzar Ahmed, Muddasir Hanif, Shuzhi Hu, Lizhong Zhao, Jiasheng Zhang, Zhongwu Liu*, ZnO flowers and graphene oxide hybridization for efficient photocatalytic degradation of o-xylene, Materials Chemistry and Physics, 212 (2018) 479-489

[76] Xiaoyan Sun, Zhongwu Liu, Hongya Yu, Zhigang Zheng, Dechang Zeng, Facile synthesis of BiFeO ₃ nanoparticles by modified microwave-assisted hydrothermal method as visible light driven photocatalysts, Materials Letters, 219 (2018) 225-228 

[77] Q. Zhou, W. Li, Y. Hong, L.Z. Zhao, X.C. Zhong, H.Y. Yu, L.L. Huang, Z.W. Liu*, Microstructure improvement related coercivity enhancement for sintered NdFeB magnet after optimized additional heat treatment, Journal of Rare Earths, 36 (2018) 379-394

[78] Gulzar Ahmed, Muddasir Hanif, Khalid Mahmood, Rihui Yao, Honglong Ning, Dongling Jiao, Mingmei Wu, Javid Khan, Zhongwu Liu*, Lattice defects of ZnO and hybrids with GO: characterization, EPR and optoelectronic properties, AIP Advances, 8 (2018) 025218

[79] W. Li, L.Z. Zhao, Q. Zhou, X.C. Zhong, Z.W. Liu*, Effects of grain boundary configuration and characteristics on the demagnetization process and coercivity of anisotropic NdFeB magnets, Computational Materials Science, 148 (2018) 38-45

[80] X.T. Dong, X.C. Zhong, D.R. Peng, J.H. Huang, H. Zhang, D.L. Jiao, Z.W. Liu, R.V. Ramanujan, La_0.8Ce _0.2(Fe _0.95Co _0.05) _11.8Si _1.2/Sn₄₂Bi ₅₈ magnetocaloric composites prepared by low temperature hot pressing, Journal of Alloys and Compounds, 737 (2018) 568-574 

[81] M. Fang, C.M. Tang, Z.W. Liu*, Microwave-assisted hydrothermal synthesis of Cu-doped ZnO single crystal nanoparticles with modified photoluminescence and confirmed ferromagnetism, Journal of Electronic Materials, 47(2) (2018) 1390-1396

[82] W. Li, Q. Zhou, L.Z. Zhao, Q.X. Wang, X.C. Zhong, Z.W. Liu*, Micromagnetic simulation of anisotropic diffusion in the grain boundary diffusion processed sintered Nd-Fe-B magnets, Journal of Magnetism and Magnetic Materials, 451 (2018) 704-709

[83] X.C. Zhong, X.L Feng, J.W. Huang, H. Zhang, Y.L. Huang, Z.W. Liu, D.L. Jiao, Microstructure evolution and large magnetocaloric effect of La_0.8Ce _0.2(Fe _0.95Co _0.05) _11.8Si _1.2 alloy prepared by strip-casting and annealing, AIP Advances 8(4) (2018): 048102 

[84] X.C. Zhong, X.J. Guo, S.Y. Zou, H.Y. Yu. Z.W. Liu, Y.F. Zhang, K.X. Wang, Improving soft magnetic properties of Mn-Zn ferrite by rare earth ions doping, AIP Advances 8(4) (2018): 047807

[85] X.C. Zhong, X.Y. Shen, H.Y. Mo, D.L. Jiao, Z.W. Liu, W.Q. Qiu, H. Zhang, R.V. Ramanujan, Table-like magnetocaloric effect and large refrigerant capacity in Gd65Mn25Si10-Gd composite materials for near room temperature refrigeration, Materials Today Communications, 14 (2018) 22–26

[86] X.C. Zhong, H.Y. Mo, X.W. Wang, X.Y. Shen, X.L. Feng, D.L. Jiao, Z.W. Liu, Effects of crystallization treatment on the structure and magnetic properties of Gd₆₅Fe ₂₅Zn ₁₀ alloy ribbons for magnetic refrigeration, Journal of Alloys and Compounds, 730 (2018) 493-500 

[87] L.Z. Zhao, W.T. Guo, Z.Y. Zhang, D.L. Jiao, J.S. Zhang, Z.W. Liu*, Jean Marc Greneche Structure, magnetic properties and Mössbauer study of melt-spun nanocrystalline Ce-rich ternary Ce-Fe-B alloy, Journal of Alloys and Compounds, 715 (2017) 60-64

[88] M. Fang, Z.W. Liu*, Controllable size and photoluminescence of ZnO nanorod arrays on Si substrate prepared by microwave-assisted hydrothermal method, Ceramics International, 43 (2017) 6955-6962

[89] C.M. Tang, X.Y. Liao, W.J. Zhong, H.Y. Yu, Z.W. Liu*, Electric field assisted growth and field emission properties of thermally oxidized CuO nanowires, RSC Advances, 7 (2017) 6439

[90] Zubair Ahmad, Zhongwu Liu*, A. ul Haq, Synthesis, magnetic and microstructural properties of Alnico magnets with additives, Journal of Magnetism and Magnetic Materials, 428 (2017) 125-131

[91] L.Z. Zhao, Q. Zhou, J.S. Zhang, D.L. Jiao, Z.W. Liu*, J.M. Greneche, A nanocomposite structure in directly cast NdFeB based alloy with low Nd content for potential anisotropic permanent magnets, Materials and Design, 117 (2017) 326-331

[92] X.Y. Shen, X.C. Zhong*, X.W. Huang, H.Y. Mo, X.L. Feng, Z.W. Liu, D.L. Jiao, Achieving a table-like magnetocaloric effect and large refrigerant capacity in in situ multiphase Gd65Mn25Si10 alloys obtained by crystallization treatment, Journal of Physics D: Applied Physics, 50 (3) (2017) 035005

[93] Y.L Huang, W.B. Fan, Y.H. Hou, K.X. Guo, Y.F. Ouyang, Z.W. Liu, Effects of intrinsic defects on the electronic structure and magnetic properties of CoFe₂O₄: A first-principles study, Journal of Magnetism and Magnetic Materials, 421 (2017) 300-305 

[94] Y.H. Hou,Y.L. Huang, S.J. Hou, S.C. Ma, Z.W. Liu,Y.F. Ouyang, Structural, electronic and magnetic properties of RE3+-doping in CoFe₂O₄: A first-principles study, Journal of Magnetism and Magnetic Materials, 421 (2017) 300-305 

[95] Y.P. Zeng, E. Mikmeková, Z.W. Liu*, Magnetoresistance effects associated with various electrical conduction mechanisms in nanostructured [C/FeCo]n multilayers, Journal of Magnetism and Magnetic Materials, 421 (2017) 39-43

[96] L.Z. Zhao, H.Y. Yu, W.T. Guo, J.S. Zhang, Z.Y. Zhang, M. Hussain, Z.W. Liu*, J.M. Greneche, Phase and hyperfine structures of melt-spun nanocrystalline (Ce1-xNdx)16Fe78B6 alloys, IEEE Transactions on Magnetics, 53 (11) (2017) 1800205

[97] Z.Y. Zhang, L.Z. Zhao, J.S. Zhang, X.C. Zhong, W.Q. Qiu, D.L. Jiao, Z.W. Liu*, Phase precipitation behavior of rapidly quenched ternary La-Fe-B alloys and the effects of Nd substitution, Materials Research Express, 4 (8) (2017) 086503

[98] Javid Khan, Jiuwang Gu, Shiman He, Xiaohui Li, Gulzar Ahmed, Zhongwu Liu, Muhammad Nadeem Akhtar, Wenjie Mai, and Mingmei Wu, Rational Design of Tripartite Layered TiO₂ Photoelectrode: A Candidate for Enhanced Power Conversion Efficiency in Dye Sensitized Solar Cells, Nanoscale, 9 (2017) 9913-9920 

[99] L.Z. Zhao, X.X. Deng, H.Y. Yu, H.J. Guan, X.Q. Li, Z.Y. Xiao, Z.W. Liu*, J.M. Greneche, Structure and performance of anisotropic nanocrystalline NdFeB hard magnets fabricated by high-velocity compaction followed by deformation, Journal of Magnetism and Magnetic Materials, 443 (2017) 51-57

[100] Z.Y. Zhang, L.Z. Zhao, X.C. Zhong, D.L. Jiao, Z.W. Liu*, Phase precipitation behavior of melt-spun ternary Ce₂Fe ₁₄B alloy during rapid quenching and heat treatment, Journal of Magnetism and Magnetic Materials, 441 (2017) 429-435

[101] L.Z. Zhao, W.T. Guo, Z.Y. Zhang, D.L. Jiao, J.S. Zhang, Z.W. Liu*, Jean Marc Greneche, Structure, magnetic properties and Mössbauer study of melt-spun nanocrystalline Ce-rich ternary Ce-Fe-B alloy, Journal of Alloys and Compounds, 715 (2017) 60-64

[102] M. Fang, Z.W. Liu*, Structure and properties variations in Zn1-xCoxO nanorods prepared by microwave-assisted hydrothermal method, Materials Science in Semiconductor Processing, 57 (2017) 233-238

[103] L.Z. Zhao, W. Li, X.H. Wu, M. Hussain, Z.W. Liu*, G.Q. Zhang, J.M. Greneche, Inducing magnetic anisotropy and optimized microstructure in rapidly solidified Nd-Fe-B based magnets by thermal gradient, magnetic field and hot deformation, Materials Research Express, 3 (2016) 105001

[104] X.C. Zhong*, X.W. Huang, X.Y. Shen, H.Y. Mo, Z.W. Liu, Thermal stability, magnetic properties and large refrigerant capacity of ternary Gd55Co35M10 (M = Mn, Fe and Ni) amorphous alloys, Journal of Alloys and Compounds, 682 (2016)476-480

[105] D.Y. Feng, L.Z. Zhao, Z.G. Zheng, H.Y. Yu, G.Q. Zhang, Z.W. Liu*, An investigation on nanocrystalline TbCu7-type SmCo_6.4Si _0.3Zr _0.3C _0.2 alloys with Sm partially substituted by various light and heavy rare earth elements, IEEE Transactions on Magnetics, 52 (2016) 2102106 

[106] M.X. Wu, L.J. Liu, X.S. Gao, Z.W. Liu*, Electric and magnetic properties of Y-type Ba₂Mg ₂Fe ₁₂O ₂₂ hexaferrites with various Co doping, Journal of Materials Science: Materials in Electronics, 27 (2016) 10516–10524 

[107] C.M. Tang, Y.B. Wang, R.H. Yao, H.L. Ning, Z.W. Liu*, Enhanced adhesion and field emission of CuO nanowires synthesized by simply modified thermal oxidation technique, Nanotechnology, 27 (2016) 395605

[108] Z.G. Qiu, D.C. Zeng, L.Z. Zhao, J. Wang, H.Y. Yu, J.P. Liu, Z.W. Liu, K.S. Zhou, Effects of non-magnetic phase and deposition temperature on magnetic properties of FePt-MgO granular thin films on single-crystal MgO substrate, Physica B: Condensed Matter, 500 (2016) 111-117

[109] X.C. Zhong*, X.L. Feng, X.W. Huang, X.Y. Shen, Z.W. Liu, Structure and magnetocaloric effect of La_0.7Ce _0.3(Fe _0.92Co _0.08)11.4Si1.6 bulk alloy prepared by powder metallurgy, Journal of Alloys and Compounds, 685 (2016) 913-916 

[110] Y.H. Hou, Y.L. Wang, Y.L. Huang*, W. Wang, S. Li, S.C. Ma, Z.W. Liu*, D.C. Zeng, L.Z. Zhao, Z.C. Zhong, Effects of Nd-rich phase on the improved properties and recoil loops for hot deformed Nd-Fe-B magnets, Acta Materialia, 115 (2016) 385-391

[111] D.Y. Chen, D.C. Zeng, Z.W. Liu, Synthesis, structure, morphology evolution and magnetic properties of single domain strontium hexaferrite particles, Materials Research Express, 3 (2016) 045002

[112] Z.G. Qiu,H.Y. Yu, Z.W. Liu, D.C. Zeng,J.P. Liu, Effects of TiN intermediate layer on microstructure and magnetic anisotropy of FePt thin films, Applied Physics A, 122 (2016) 350

[113] Z.G. Qiu, H.Y. Yu, L.Z. Zhao, J.W. Lai, Z.W. Liu, D.C. Zeng, J.P. Liu, Effects of deposition temperature and quenching rate on the surface morphology and magnetic properties of FePt/TiN films, Thin Solid Films, 604 (2016) 12-17

[114] L.Z. Zhao, Y. Hong, D.L. Jiao, Z.G. Qiu, Q. Zhou, M. Hussain, Z.W. Liu*, J.M. Greneche, G.Q. Zhang, Influences of intergranular structure on the magnetic properties of directly cast nanocrystalline NdFeCoTiNbBC alloys, Journal of Physics D: Applied Physics, 49 (2016) 185005

[115] X.C. Zhong, X.Y. Shen, Z.W. Liu, Magnetocaloric properties, microhardness and corrosion resistance of Gd100-xZrx alloys, Journal of Rare Earths, 34(9) (2016) 889-894

[116] K.P. Su*, X.X. Chen, H.O. Wang, D.X. Huo*, Z.W. Liu, Effect of milling on the structure and magnetic properties in Mn54Al46 flakes prepared by surfactant-assisted ball milling, Materials Characterization, 114 (2016) 263-266

[117] L.Z. Zhao, Y. Hong, X.G. Fang, Z.G. Qiu, X.C. Zhong, X.S. Gao, Z.W. Liu*, High coercivity microcrystalline Nd-Fe-Co-Al-B bulk magnets prepared by direct copper mold casting, Journal of Magnetism and Magnetic Materials, 408 (2016) 152-158

[118] X.H. Wu, G. Wang, L.Z. Zhao, D.C. Zeng, Z.W. Liu, Phase field simulation of dendrite growth in binary Ni–Cu alloy under the applied temperature gradient, Computational Materials Science 117 (2016) 286–293

[119] D.Y. Feng, L.Z. Zhao, Z.W. Liu*, Magnetic-field-induced irreversible antiferromagnetic-ferromagnetic phase transition around room temperature in as-cast Sm-Co based SmCo7-xSix alloys, Physica B: Condensed Matter, 487 (2016) 25-30

[120] M. Hussain, L. Z. Zhao, C. Zhang, H.Y. Yu, X.C. Zhong, Z. W. Liu*, Composition-dependent magnetic properties of melt spun La or/and Ce substituted nanocomposite NdFeB alloys, Physica B: Condensed Matter, 483 (2016) 69-74

[121] M. Hussain, J. Liu, X. C. Zhong, Z.W. Liu*, Composition related magnetic properties and coercivity mechanism for melt spun [(La_0.5Ce _0.5) _1-xRE _x]10Fe84B6 (RE=Nd or Dy) nanocomposite alloys, Journal of Magnetism and Magnetic Material, 399 (2016) 26-31 

[122] Y.L. Huang, Y. Wang, Y.H. Hou, Y.L. Wang, Y. Wu, S.C. Ma, Z.W. Liu, D.C. Zeng, Y. Tian, W.X. Xia, Magnetic microstructure and magnetic properties of spark plasma sintered NdFeB magnets, Journal of Magnetism and Magnetic Material, 399 (2016) 175-178

[123] Gulzar Ahmed, Muddasir Hanif, Lizhong Zhao, Mozaffar Hussain, Javid Khan, Zhongwu Liu*, Defect engineering of ZnO nanoparticles by graphene oxide leading to enhanced visible light photocatalysis, Journal of Molecular Catalysis. A, Chemical, 425 (2016) 310-321

[124] Q. Zhou, Z.W. Liu*, X.C. Zhong, G.Q. Zhang, Properties improvement and structural optimization of sintered NdFeB magnets by non-rare earth compound grain boundary diffusion, Materials and Design, 86 (2015) 114-120

[125] J. Wang, Z.W. Liu, Z.G. Zheng, H.Y. Yu, G.P. Tang, D.C. Zeng, Effect of rare earth additions on microstructure, thermal stability and crystallization behavior of melt spun Fe_80.65Cu _1.35Si ₂B ₁₄RE ₂ (RE= Y, Gd, TB and DY) soft magnetic alloys, Materials Letters, 159 (2015) 76-79 

[126] X.X. Deng, L.Z. Zhao, H.Y. Yu, Z.W. Liu*, and Z.Y. Xiao, Preparation of isotropic and anisotropic nanocrystalline NdFeB magnets by high-velocity compaction and hot deformation, IEEE Trans. Magn, 51 (11) (2015), 2104804

[127] Y. Hong, L.Z. Zhao, G. Wang, Z.W. Liu, D.C. Zeng, Micromagnetic Simulation of Magnetization Reversal Process Using Magnetic Force Microscope Image, IEEE Transactions on Magnetics, 51 (11) (2015) 7100304

[128] Z.W. Liu*, L.Z. Zhao, S.L. Hu, H.Y. Yu, X.C. Zhong, and X.X. Gao, Coercivity and thermal stability enhancement for spark plasma sintered nanocrystalline Nd-Fe-B magnets with Dy2O ₃ and Zn additions, IEEE Transactions on Magnetics, 51(11) (2015), 2101204 

[129] Z.W. Liu*, K.P. Su, Y.T. Cheng, R.V. Ramanujan, Structure and properties evolutions for hard magnetic MnAl and MnGa based alloys prepared by melt spinning or mechanical milling, Material Science and Engineering with Advanced Research, 1(1) (2015) 12-19

[130] D.Y. Feng, Z.W. Liu*, Z.G. Zheng, X.C. Zhong, G.Q. Zhang, Hard magnetic properties and thermal stability for TbCu7-type SmCo_6.4Si _0.3Zr _20.3 alloys with Sm substituted by various rare-earth elements, IEEE Transactions on Magnetics, 51 (10) (2015) 2100604 

[131] M.X. Wu, X.S. Gao, Z.W. Liu*, Field-dependent magnetoelectric effects in polycrystalline Co₂Y-type Ba _0.5Sr _1.5Co ₂(Fe _1-xAl _x) ₁₂O ₂₂ hexaferrites, Journal of the American Ceramic Society, 98 (8) (2015) 2498-2502 

[132] X.H. Wu, G. Wang, D.C. Zeng, Z.W. Liu, Prediction of the glass-forming ability of Fe–B binary alloys based on a continuum-field-multi-phase-field mode, Computational Materials Science, 108 (2015) 7-33

[133] L.Z. Zhao, Z.G. Zheng, X. Chen, Z.G. Qiu, J.W. Lai, G. Wang, Z.W. Liu*, R.V. Ramanujan, Magnetic characteristics for the mould-cast hard magnetic Nd70-xFe30Alx (x=0-10) alloys, IEEE Transactions on Magnetics, 51 (8) (2015) 2100406

[134] X.X. Deng, Z.W. Liu*, H.Y. Yu, Z.Y. Xiao, G.Q. Zhang, Isotropic and anisotropic nanocrystalline NdFeB bulk magnets prepared by binder-free high-velocity compaction technique, Journal of Magnetism and Magnetic Materials, 390 (2015) 26-30

[135] X.C. Zhong*, H.C. Tian, S.S. Wang, Z.W. Liu, Z.G. Zheng, D.C. Zeng, Thermal, magnetic and magnetocaloric properties of Fe80−xMxB10Zr9Cu1 (M = Ni, Ta; x = 0, 3, 5) amorphous alloys, Journal of Alloys and Compounds, 633 (2015) 188-193

[136] X.C. Zhong, Z.W. Liu, J.X. Min, Karl A. GschneidnerJr, V. K. Pecharsky, Magnetic properties and magnetic entropy changes of MRE₂Co ₇ compounds, Science China - Physics Mechanics & Astronomy, 58 (2015) 597501 

[137] J.W. Lai, Z.G. Zheng, X.C. Zhong, V. Franco, R. Montemayor, Z.W. Liu, D.C. Zeng, Table-like magnetocaloric effect of Fe88-xNdxCr8B4 composite materials, Journal of Magnetism and Magnetic Materials, 390 (2015) 87-90

[138] K.P. Su, J. Wang, H.O. Wang, D.X. Huo, L.W. Li, Y.Q. Cao, Z.W. Liu, Strain-induced coercivity enhancement in Mn51Al46C3 flakes prepared by surfactant-assisted ball milling, Journal of Alloys and Compounds, 640 (2015) 114-117

[139] D.Y. Qian, M. Hussain, Z.G. Zheng, X.X. Gao, Z.W. Liu*, Compositional optimization for nanocrystalline hard magnetic MRE-Fe-B-Zr alloys via modifying RE and B contents, Journal of Magnetism and Magnetic Materials, 384 (2015) 87-92

[140] Y.Y. Meng, D.Y. Chen, Y.T. Sun, D.L. Jiao, D.C. Zeng, Z.W. Liu*, Adsorption of Cu2+ ions using chitosan-modified magnetic Mn ferrite nanoparticles synthesized by microwave-assisted hydrothermal method, Applied Surface Sciences, 324 (2015) 745-750

[141] Zubair Ahmad, Mi Yan, Shan Tao, S. Wilayat Husain, Zhongwu Liu, Effects of gadolinium and silicon substitution on magnetic properties and microstructure of Nd–Fe–B–Nb bulk nanocomposite magnets, Journal of Magnetism and Magnetic Materials, 378 (2015) 558-564

[142] LIU Hong, GAN Wei-ping, LIU Zhong-wu, ZHENG Feng. Composition change and capacitance properties of ruthenium oxide thin film. Journal of Central South University. 22 (2015) 8-13

[143] J.X. Min, X.C. Zhong, V. Franco, H.C. Tian, Z.W. Liu, Z.G. Zheng, D.C. Zeng, Structure, magnetic properties and giant magnetocaloric effect of Tb₄Gd ₁Si _2.035Ge _1.935Mn _0.03 alloy. Intermetallics, 57 (2015) 68-72 

[144] K.P. Su*, D.L. Tao, J. Wang, D.X. Huo, Y.Q. Cao, Z.W. Liu*, Y.J. Zhang, Preparation of MnAlC flakes by surfactant assisted ball-milling and the effects of annealing, International Journal of Materials Research, 106 (1) (2015) 75-79

[145] H.C. Tian, X.C. Zhong, Z.W. Liu, Z.G. Zheng, J.X. Min, Achieving table-like magnetocaloric effect and large refrigerant capacity around room temperature in Fe78−xCexSi4Nb B12Cu1 (x=0–10) composite materials, Materials Letters, 138 (2015) 64-66

[146] M.X. Wu, W.J. Zhong, X.S. Gao, L.J. Liu, Z.W. Liu*, Analysis of the alternating currentconductivity and magnetic behaviors for the polycrystalline Y-type Ba_0.5Sr _1.5Co ₂(Fe _1-xAl _x) ₁₂O ₂₂ hexaferrites, Journal of Applied Physics, 116 (2014) 224103 

[147] D.D. Hu, X. Liao, H.L. Ma, Z.G. Zheng, Z.W. Liu*, Preparation of ferrimagnetic CoFe₂O ₄ and ferroelectric BiFe O ₃ thin films by ultrasonic spray pyrolysis, Journal of Surfaces and Interfaces of Materials (JSIM), 2 (3) 2014, 213-219 

[148] Meng, Yuying, Voiry, Damien, Goswami, Anandarup, Zou, Xiaoxin, Huang, Xiaoxi, Chhowalla, Manish, Liu, Zhongwu, Asefa, Tewodros, N-, O- and S-Tridoped Nanoporous Carbons as Selective Catalysts for Oxygen Reduction and Alcohol Oxidation Reactions, Journal of the American Chemical Society, 136(39), 2014, 13554–13557

[149] Xi-Chun Zhong*, Zhong-Wu Liu, De-Chang Zeng, Karl A. Gschneidner Jr., Vitalij K. Pecharsky, Magnetocaloric effect of Pr2Fe17-xMnx alloys, Rare Metals 33 (5) (2014) 552–555

[150] Meng Yuying, Zou Xiaoxin, Huang Xiaoxi, Goswami Anandarup, Liu Zhongwu*, Asefa Tewodros*, Polypyrrole-Derived Nitrogen-Doped Mesoporous Carbons as Metal-Free Catalyst for Hydrazine Electrooxidation, Advanced Materials, 26 (2014) 6510-6516

[151] J.W. Lai, Z.G. Zheng, R. Montemayor, X.C. Zhong, Z.W. Liu, D.C. Zeng, Magnetic phase transitions and magnetocaloric effect of MnCoGe1−xSix Journal of Magnetism and Magnetic Materials, 372(2014) 86-90

[152] Xie Ren , Wei Jun , Liu Zhong-Wu , Tang Yan-Mei ,Tang Tao , Tang Shao-Long* , Du You-Wei , Evolution of magnetic domain structure of martensite in Ni–Mn–Ga films under the interplay of the temperature and magnetic field, Chinese Physics B 23 (6) (2014) 068103

[153] Z.W. Liu*, M.L. Zhong, C.M. Tang, Large-scale oxide nanostructures grown by thermal oxidation (Invited), ISAM2013, Islamabad, Pakistan, Sept 23-27, 2013, IOP Conference Series: Materials Science and Engineering 60 (2014) 012022

[154] Z.W. Liu*, Y.L. Huang, S L Hu, X C Zhong, H Y Yu, X X Gao, Properties enhancement and recoil loop characteristics for hot deformed nanocrystalline NdFeB permanent magnets (invited), ISAM2013, Islamabad, Pakistan, Sept 23-27, 2013, IOP Conference Series: Materials Science and Engineering 60 (2014) 012013

[155] L. Ma, M.F. He, Z.W. Liu, D.C. Zeng, Z.F. Gu, G. Cheng, Structure and giant magnetoresistance of carbon-based amorphous films prepared by magnetron sputtering, Thin Solid Films. 556 (2014) 460-463

[156] X.C. Zhong*, H.C. Tian, P.F. Tang, Z.W. Liu, Z.G. Zheng, D.C. Zeng, Structure, magnetic properties and magnetocaloric effects of Fe50Mn15-xCoxNi35 alloys, Science China-Physics Mechanics & Astronomy, 57 (3) 2014 437-441

[157] W.Q. Qiu*, Q. Wu, Z.W. Liu, D.C. Zeng, K.S. Zhou, Study on Adhesive Properties of Inlay Structure Diamond Coatings by Indentation Test, Rare Metal Materials and Engineering, 43 (2) (2014) 381-385

[158] D.Y. Feng, Z.W. Liu*, G. Wang, Z.G. Zheng, D.C. Zeng, Z. Li, G.Q. Zhang, Zr and Si co-substitution for SmCo7 alloy with enhanced magnetic properties and improved oxidation and corrosion resistances, Journal of Alloys and Compounds, 610 (2014) 341-346

[159] D.Y. Feng, Z.W. Liu*, Z.G. Zheng, D.C. Zeng, G.Q. Zhang, Improving the structure, magnetic properties and thermal stability of rapidly quenched TbCu7-type SmCo_6.4Si _0.3Zr _0.3 alloy by carbon addition, Physica B: Condensed Matter, 446 (2014) 63-66 

[160] J.X. Min, X.C. Zhong*, Z.W. Liu, Z.G. Zheng, D.C. Zeng, Magnetic properties and magnetocaloric effects of Gd-Mn-Si ribbons in amorphous and crystalline states, Journal of Alloys and Compounds, 606 (2014) 50-54

[161] Z.W. Liu*, D.Y. Qian, L.Z. Zhao, Z.G. Zheng, X.X. Gao, R.V. Ramanujan, Enhancing the coercivity, thermal stability and exchange coupling of nanocomposite (Nd,Dy,Y)-Fe-B alloys with reduced Dy content by Zr addition, J Alloy Comp, 606 (2014) 44-49

[162] Jing Liu, Y.P. Zeng, H.Y. Yu, D.L. Jiao, Z.G. Zheng, Z.W. Liu*, G.Q. Zhang, Development of FePt-Si-N nanocomposite thin films for magnetic recording, Appl. Surf. Sci, 300 (2014) 124-128

[163] Wan-qi QIU*, Zhi-gang HU, Zhong-wu LIU, De-chang ZENG, Ke-song ZHOU, Preparation and characterization of diamond film on Cu substrate using Cu-diamond composite interlayer, Trans. Nonferrous Met. Soc. China 24 (2014) 758−763

[164] M.T. Liu, X.C. Zhong, J. Wang, Z.W. Liu, W.Q. Qiu, D.C. Zeng, Microstructure and thermal stability of MoSi2-CoNiCrAlY nanocomposite feedstock prepared by high energy ball milling, Surface and Coatings Technology,239 (2014)78-83

[165] H.J. Willy, L.Z. Zhao, G. Wang, Z.W. Liu*, Predictability of bulk metallic glass forming ability using the criteria based on characteristic temperatures of alloys,Physica B,437 (2014) 17-23

[166] Y.Y. Meng, M.H. He, Q. Zeng, D.L. Jiao, S. Shukla, R.V. Ramanujan, Z.W. Liu*, Synthesis of barium ferrite ultrafine powders by a sol-gel combustion method using glycine gels, Journal of Alloys and Compounds, 583 (2014) 220-225

[167] M. L. Zhong, Z.W. Liu*, H. Y. Yu, X. C. Zhong, D. C. Zeng, R. V. Ramanujan. Low-temperature synthesis and nanomagnetism of large-area α-Fe₂O ₃ nanobelts, Journal of Nanoscience and Nanotechnology, 13 (2013) 1525-1529 

[168] Z. Ahmad, M. Yan*, Z. W. Liu, S. Tao, T. Y. Ma. High coercivity (Nd8Y3)-(Fe62Nb3Cr1)-B23 magnets produced by injection casting, Journal of Materials Science, 48 (2013) 1779-1786

[169] H. J. Willy, G. Wang, Z. W. Liu*. Analysis of the glass formation for Fe-base alloys by combining the kinetic and thermodynamic parameters, Journal of Central South University, 20 (2013) 293-300

[170] Z. Ahmad, S. Tao, M. Yan*, Z. W. Liu. Fe₆₉B _20.2Nd _4.2Nb _3.3Y _2.5Zr _0.8magnets produced by injection casting, Journal of Magnetism and Magnetic Materials, 332 (2013) 1-5 

[171] E. J. Payton, G. Wang, M. J. Mills, Y. Wang. Effect of initial grain size on grain coarsening in the presense of an unstable population of pinning particles, Acta Materialia, 61 (2013) 1316-1326

[172] Jing Liu, Z. W. Liu*, H. Y. Yu, D. L. Jiao, D. C. Zeng, S. L. Hu, G. Q. Zhang. FePt-Si-N nano-granular thin films with improved structure and magnetic properties for high density recording medium, Journal of Magnetism and Magnetic Materials, 336 (2013) 55-60

[173] X. C. Zhong, B. B. Gao, Z. W. Liu, Z. G. Zheng, D. C. Zeng. Amorphous and crystallized (Gd4Co3)(100-x)B-x alloys for magnetic refrigerants working in the vicinity of 200 K, Journal of Alloys and Compounds, 553 (2013) 152-156

[174] H. Wu, Y.B. Lin, J. J. Gong, F. Zhang, M. Zeng, M. H. Qin, Z. Zhang, Q. Ru, Z. W. Liu, X. S. Gao*, J. M. Liu. Significant enhancements of dielectric and magnetic properties in Bi(Fe1−xMgx)O _3-x/2 induced by oxygen vacancies, Journal of Physics D: Applied Physics, 46 (2013) 145001 

[175] X. C. Zhong*, J. X. Min, Z. W.Liu, Z. G. Zheng, D. C. Zeng, V. Franco, R. V. Ramanujan. Low hysteresis and large room temperature magnetocaloric effect of Gd₅Si _2.05-xGe _1.95-xNi _2x (2x = 0.08, 0.1) alloys, Journal of Applied Physics, 113 (2013) 17A916 

[176] Z. G. Zheng, X. C. Zhong, J. L. Zhang, Z. W. Liu*, V. Franco, D. C. Zeng*. Magnetic properties and magnetocaloric effects in GdCo9Si2 compound with multiple magnetic phase transitions, Journal of Applied Physics, 113, (2013) 17A938

[177] K P.Su, Z W Liu*, D C Zeng, D X Huo, L W Li and G Q Zhang. Structure and size dependent properties of NdFeB nanoparticles and textured nano-flakes prepared from nanocrystalline ribbons, Journal of Physics D: Applied Physics, 46 (2013) 245003

[178] Z. G. Zheng*, X. C. Zhong, Z. W. Liu, D. C. Zeng*, V. Franco, J. L. Zhang. Magnetocaloric effect and critical behavior of amorphous (Gd4Co3)1−xSix alloys, Journal of Magnetism and Magnetic Materials, 343 (2013) 184-188

[179] X. C. Zhong*, P. F. Tang, B. B. Gao, J. X. Min, Z. W. Liu, Z. G. Zheng, D. C. Zeng, H. Y. Yu, W. Q. Qiu. Magnetic properties and magnetocaloric effects in amorphous and crystalline Gd55Co35Ni10 ribbons, SCIENCE CHINA, Physics, Mechanics & Astronomy, 56 (2013): 1096–1099

[180] Y. H. Hou, Y. L. Huang, Z. W. Liu*, D. C. Zeng, S. C. Ma, Z. C.Zhong. Hot deformed anisotropic nanocrystalline NdFeB based magnets prepared from spark plasma sintered melt spun powders, Materials Science and Engineering B, 178 (2013) 990-997

[181] H. L. Ma, Z. W. Liu*, D. C. Zeng**, M. L. Zhong, H. Y. Yu. Nanostructured ZnO films with various morphologies prepared by ultrasonic spray pyrolysis and its growing process, Applied Surface Science, 283 (2013) 1006-1011

[182] Y. P. Zeng, Z. W. Liu*, H. Y. Yu, Z. G. Zheng, D. C. Zeng, X. S. Gao. Large positive room temperature magnetoresistance in nanogranular FeCo-Si-N thin films, Materials Letters 110 (2013) 27-30

[183] D. Y. Feng, Z. W. Liu*, Z. G. Zheng, D. C. Zeng, G. Q. Zhang. The structure, anisotropy and coercivity of rapidly quenched TbCu7-type SmCo7-xZrx alloys and the effects of post treatments, Journal of Magnetism and Magnetic Materials, 347 (2013) 18-25

英文論文（2012-2006）：

[184] Z. W. Liu, C. Chen, Z. G. Zheng, B.H. Tan, R.V. Ramanujan. Phase transition and hard magnetic properties for rapidly solidified MnAl alloys doped with C, B and rare earth elements, Journal of Materials Science, 47 (2012) 2333-2338

[185] Y. L. Huang, Z. W. Liu, X. C. Zhong, H. Y. Yu, X. X. Gao, J. Zhu, D. C. Zeng, Diffusion of Nd-rich phase in the spark plasma sintered and hot deformed nanocrystalline NdFeB magnets, Journal of Applied Physics, 111 (2012) 033913

[186] X. H. Cui, Z. W. Liu, X. C. Zhong, H. Y. Yu, D. C. Zeng. Melt spun and suction cast Nd-Fe-Co-B-Nb hard magnets with high Nd contents, Journal of Applied Physics, 111 (2012) 07B508

[187] X. C. Zhong, P. F. Tang, Z. W. Liu, D. C. Zeng, Z. G. Zheng, H. Y. Yu, W. Q. Qiu, H. Zhang, and R. V. Ramanujan. Large magnetocaloric effect and refrigerant capacity in Gd–Co–Ni metallic glasses, Journal of Applied Physics, 111 (2012) 07A919

[188] Z. G. Zheng, X. C. Zhong, H. Y. Yu, V. Franco, Z. W. Liu, D. C. Zeng. The magnetocaloric effect and critical behavior in amorphous Gd60Co40-xMnx alloys, Journal of Applied Physics, 111 (2012) 07A922

[189] D. Y. Chen, Y. Y. Meng, D. C. Zeng, Z. W. Liu, H. Y. Yu, X. C. Zhong. CTAB-assisted low temperature synthesis of SrFe12O19 ultrathin hexagonal platelets and its formation mechanism, Materials Letters, 76 (2012) 84-86

[190] G. Wang, D. C. Zeng, Z. W. Liu. Phase field study of concurrent nucleation and growth in a diffusion-controlled solid-state phase transformation, Advanced Materials Research, 490-495 (2012) 1140-1144

[191] G. Wang, D. C. Zeng, Z. W. Liu. Evaluation of glass-forming ability for metallic melts by phase field approach, Advanced Materials Research, 490-495 (2012) 3129-3133

[192] Z. W. Liu, C. K. Ong. Synthesis and properties of close packed ZnO:Al submicro-rods deposited by pulsed laser ablation, Vacuum, 86 (2012) 1924-1929

[193] Y. S. Wu, D. C. Zeng, Z. W. Liu, W. Q. Qiu, H. Y. Yu, X.C. Zhong, S. Z. Li, Y. X. Ma. Microstructure and sliding wear behavior of pseudo-alloy PS45/CuAl8 composite coating sprayed by HVAA technique, Rare Metals, 31 (2012) 204-208

[194] Z. W. Liu. New developments in NdFeB-based permanent magnets (Invited), ISAM2011, Key Engineering Materials, 510-511 (2012) 1-8

[195] Z. W. Liu, Y. L. Huang, H. Y. Huang, X. C. Zhong, H. Y. Yu, D. C. Zeng. Isotropic and Anisotropic Nanocrystalline NdFeB-based Magnets Prepared by Spark Plasma Sintering and Hot Deformation, ISAM2011, Key Engineering Materials, 510-511 (2012) 307-314

[196] Z. W. Liu, Y. M. Li, J. Wang, X. C. Zhong, H. Y. Yu, D. C. Zeng. Improved soft magnetic properties and thermal stability for Fe82.65Cu1.35Si2B14 alloys with Nb, Zr, Ta or Co addition, Materials Science and Technology, 28 (2012) 987

[197] Y. L. Huang, Z. W. Liu, X. C. Zhong, H. Y. Yu, D. C. Zeng. NdFeB-based Magnets Prepared from Nanocrystaline Powders with Various Compositions and Particle Sizes by Spark Plasma Sintering, Powder Metallurgy, 55 (2012) 124-129

[198] W. Q. Qiu, Z. W. Liu, L. X. He, D. C. Zeng, Y. W. Mai. Improved interfacial adhesion between diamond film and copper substrate using a Cu(Cr)-diamond composite interlayer, Materials Letters, 81 (2012) 155-157

[199] Y. Y. Meng, Z. W. Liu, H. C. Dai, D. C. Zeng, S. Shukla, R. V. Ramanujan. The structure and magnetic properties of nanosized Mn_0.4 Zn _0.6 Fe _2-x RE _x O ₄  ferrites synthesized by co-precipitation and refluxing method, Powder Technology, 229 (2012) 270-275 

[200] X. C. Zhong, J. X. Min, Z. G. Zheng, Z. W. Liu, D. C. Zeng. Critical behavior and magnetocaloric effect of Gd65Mn35−xGex (x=0, 5, and 10) melt-spun ribbons, J. Appl. Phys. 112 (2012) 033903

[201] G. WANG, D. C. ZENG, Z. W. LIU. Phase field calculation of interface mobility in a ternary alloy, Trans. Nonferrous Met. Soc. China 22(2012) 1711-1716

[202] Gang WANG, Dechang ZENG, Zhongwu Liu, Nucleation barrier height in undercooled metallic melts, Acta Metall. Sin. (Engl. Lett.) 25 (2012) 256-264

[203]  MA Lei, LIU Zhongwu, ZENG Dechang, YU Hongya, ZHONG Xiaping, ZHANG Xiaozhong, Structure and magneto-electrical properties of Fe-C films prepared by magnetron sputtering, SCIENCE CHINA Physics, Mechanics & Astronomy, 55 (2012) 1594-1598

[204] G. Q. Zhang, H. Yuan, D. L. Jiao, Z. Li, Y. Zhang, Z. W. Liu. Microstructure evolution and mechanical properties of T15 high speed steel prepared by twin-atomiser spray forming and thermo-mechanical processing, Materials Science & Engineering A, 558 (2012) 566-571

[205] Z. W. Liu, D. Y. Qian, D. C. Zeng. Reducing Dy content by Y substitution in nanocomposite NdFeB alloys with enhanced magnetic properties and thermal stability, IEEE Transaction on Magnetics, 48(11) (2012) 2797-2799

[206] Z. W. Liu, H. Y. Huang, X. X. Gao, H. Y. Yu, X. C. Zhong, J. Zhu, D.C. Zeng. Microstructure and property evolution of isotropic and anisotropic NdFeB magnets fabricated from nanocrystalline ribbons by spark plasma sintering and hot deformation, Journal of Physics D: Applied Physics, 44 (2011) 025003

[207] K. P. Su, Z. W. Liu, H. Y. Yu, X. C. Zhong, W. Q. Qiu, D. C. Zeng. A feasible approach for preparing remanence enhanced NdFeB based permanent magnetic composites, Journal of Applied Physics, 109 (2011) 07A710

[208] X. C. Zhong, M. Zou, H. Zhang, Z. W. Liu, D. C. Zeng, K. A. Gschneidner, Jr., and V. K. Pecharsky. Crystal structure and magnetic properties of R5Sn4 alloys, where R is Tb, Dy, Ho, and Er, Journal of Applied Physics, 109 (2010) 07A917

[209] Z. G. Zheng, X. C. Zhong, H. Y. Yu, Z. W. Liu, D. C. Zeng. Magnetic phase transitions and magnetocaloric properties of (Gd12-xTbx)Co7 alloys. Journal of Applied Physics, 109 (2010) 07A919.

[210] Y. H. Hou, Y. J. Zhao, Z. W. Liu, H. Y. Yu, X. C. Zhong, W. Q. Qiu, and D. C. Zeng. First-principles investigation of Zn(Cd) doping effects on the electronic structure and magnetic properties in CoFe2O4. Journal of Applied Physics, 109 (2011) 07A502

[211] X. C. Zhong, P. F. Tang, Z. W. Liu, D. C. Zeng, Z. G. Zheng, H. Y. Yu, W. Q. Qiu, Magnetic properties and large magnetocaloric effect in Gd-Ni amorphous ribbons for magnetic refrigeration applications in intermediate temperature range, J. Alloys Comp. 509 (2011) 6889-6892

[212] Xichun Zhong, Hongya Yu, Wanqi Qiu, Dechang Zeng, Zhongwu Liu, Influences of heat treatment on the structure and magnetic properties of Gd5Sn4 alloy for magnetic refrigeration, Collected Proceedings: Magnetic Materials for Energy Applications, 2011

[213] K. P. Su, Z. W.Liu, X. X. Shan, Z. G. Zheng, X. C. Zhong, H. Y. Yu, D. C. Zeng. Synthesis and Characterization of Core-shell Structured Bimagnetic Cobalt-coated Iron Nanoparticles, 11th IUMRS International Conference in Asia, September 25-28, 2010, Qingdao, China, Materials Science Forum, 688 (2011) 370-375

[214] L. Ma, Z. W. Liu, D. C. Zeng, X. P. Zhong, X. Z. Zhang, Magnetic properties and Magnetoresistance of CoxC1-x granular films prepared by magnetron sputtering, 11th IUMRS International Conference in Asia, September 25-28, 2010, Qingdao, China, SCIENCE CHINA Physics, Mechanics & Astronomy, 54 (2011) 1218-1222

[215] Z. G. Zheng, X. C. Zhong, K. P. Su, H. Y. Yu, Z. W. Liu, D. C. Zeng, Magnetic properties and large magnetocaloric effect in amorphous Gd-Al-Fe alloys for magnetic refrigeration, 11th IUMRS International Conference in Asia, September 25-28, 2010, Qingdao, China, SCIENCE CHINA Physics, Mechanics & Astronomy, 54 (2011) 1267-1270

[216] Lei Ma, Z. W. Liu, H. Y. Yu, X. C. Zhong, Y.P. Zeng, D. C. Zeng, X. P. Zhong.  High coercivity FePtSiN films with L10-FePt nanoparticles embedded in a Si-rich matrix, Intermag2011, IEEE Trans. Magn. 47 (2011) 3505-3508

[217] Z. W. Liu, C. K. Ong. Microstructure and thickness dependent magnetic properties of nanogranular Co-Zn-O thin films for microwave applications, J. Alloys Compd. 509 (2011) 10075-10079

[218] Y. S. Wu, D. C. Zeng, Z. W.Liu, W. Q. Qiu, X. C. Zhong, H. Y. Yu, S. Z. Li. Microstructure and sliding wear behavior of nanostructured Ni60–TiB2 composite coating sprayed by HVOF technique, Surface & Coatings Technology, 206 (2011) 1102–1108

[219] Y. S. Wu, W. Q. Qiu, H. Y. Yu, X. C. Zhong, Z. W. Liu, D. C. Zeng, S. Z. Li. Cycle oxidation behavior of Ni60-TiB2 nanostructured composite coating sprayed by HVOF technique, Applied Surface Science, 257 (2011) 10224-10232

[220] M. L. Zhong, Z. W. Liu, X. C. Zhong, H. Y. Yu, D.C. Zeng. Thermal growth and nanomagnetism of the quasi-one dimensional iron oxide, Journal of Materials Science and Technology, 27 (2011) 985-990

[221]  G. J. Zhou, D. C. Zeng, Z. W. Liu, Phase equilibria in the Fe–Ti–Zr&nb, sp-system at 1023K[J]. J. Alloys Compd. 2010, 490 :463-467

[222] G. J. Zhou, Z. W. Liu, Z.P. Jin, D. C. Zeng, Phase equilibria of the Co-Ni-Zr system at 1198 K[J]. Materials Letters, 2010, 64 : 549-551

[223] Z. W. Liu, D. C. Zeng, R. V. Ramanujan, C. K. Ong, Rigid and flexible Fe-Zr-N magnetic thin films for microwave absorber[J]. J. Appl. Phys. 107 (2010) 09A505

[224] Hui Zhang, Dechang Zeng and Zhongwu Liu, The law of approach to saturation in ferromagnets originating from the magnetocrystalline anisotropy[J]. J. Magn. Magn. Mater. 2010, 322 : 2375-2380

[225] Y. Liu, R. V. Ramanujan, Z. W. Liu, C. Y. Tan,  C. K. Ong. The high frequency magnetic properties of self-assembled Fe-Co-Si-N nanogranular thin films[J]. Appled Physics A, 2010, 100:257-263

[226] Yuhua Hou, Yujun Zhao, Dechang Zeng, Zhongwu Liu, Lishi Wen, First-principles Investigation of the Electronic Structure and Magnetic Properties for Co-doped Fe3O4, The 7th Pacific Rim International Conference on Advanced Materials and Processing (PRICM 7), Materials Science Forum, 654-656 (2010) : 1678-1681

[227] H. Y. Yu, D. C. Zeng, Z. W. Liu, Failure Analysis on the Rivet, The 7th Pacific Rim International Conference on Advanced Materials and Processing (PRICM 7), Materials Science Forum, 654-656 (2010) : 2539-2542

[228] X. H. Cui, Z. W. Liu and D. C. Zeng, Bulk metallic glass formation, crystallization, and magnetic properties of RE4Fe72B22M2alloys, The 7th Pacific Rim International Conference on Advanced Materials and Processing (PRICM 7), Materials Science Forum, 654-656 (2010) : 1062-1065

[229]  G. J. Zhou, Z. W. Liu, D. C. Zeng, Z. P. Jin. Thermodynamic assessment of the Fe-Er system, Physica B, 405 (2010): 3590-3593

[230] M. L. Zhong, D. C. Zeng, Z.W. Liu, X. C. Zhong, H. Y. Yu, W. Q. Qiu. Synthesis, growth mechanism and gas sensing properties of large-scale CuO nanowires, Acta Materialia. 58 (2010) 5926-5932

[231] X. C. Zhong, P. F. Tang, X. Zhou, Z. G. Zheng, H. Y. Yu, D. C. Zeng, Z. W. Liu, Effects of Ni, Si, and Cr doping on the magnetic refrigerant metal, Gd, In: Proceeding of the 4th International Conference on Magnetic Refrigeration at Room Temperature (Thermag IV), edited by  P.W. Egolf, Aug 23-27, 2010, Baotou, Inner Mngolia, China, Pp191-200

[232] ZHENG Zhigang, ZHONG Xichun, YU Hongya, SU Kunpeng， LIU Zhongwu, ZENG Dechang. Preparation and property characterization of Fe3O4 magnetic nanoparticles,Electronic Components and Materials, 2010, 29 (7) : 27-29,39

[233]  Y. H. Hou, Y. J. Zhao, Z.W. Liu, H.Y. Yu, X.C. Zhong, W.Q. Qiu, D.C. Zeng and L.S. Wen.  Structural, electronic and magnetic properties of partially inverse spinel CoFe2O4: a first-principles study[J]. Journal of Physics D: Applied Physics, 43 (2010) 445003

[234] Pratap K. Deheri, Viswanathan Swaminathan, Shekhar D. Bhame, Zhongwu Liu, and Raju V. Ramanujan, Sol-gel based Chemical Synthesis of Nd2Fe14B Hard Magnetic Nanoparticles[J]. Chemistry of Materials, 2010, 22 (24): 6509–6517

[235] ZHENG Zhigang,ZHONG Xichun,Tang Pengfei,ZHONG Xichun,Qiu Wanqi,LIU Zhongwu,ZENG Dechang. The magnetic properties and magnetocaloric effect of the melt spinning Gd96V4 alloys[J].Materials Research and Applications, 2010,4(4) :504-508

[236] Qiu Wanqi,Cai Ming,ZHONG Xichun,ZHONG Xichun,LIU Zhongwu,ZENG Dechang.Study on the photoluminescense properties of AlN and Cu-doped AlN films deposited by cathodic arc ion plating[J]. Materials Research and Application), 2010, 4 (4) : 572-576

[237] Z. G. Zheng, X. C. Zhong, H. Y. Yu, D. C. Zeng and Z.W. Liu, Design and Performance Study of the Active Magnetic Refrigerator for Room Temperature Application, Inter. J. Refrig. 32 (2009) 78-86

[238] X. L. Chai, D.C. Zeng, G.X. Liu, H.Y. Yu, X. C. Zhong, Z. W. Liu, Influence of current amplitude on the nonlinear asymmetric ac volt–ampere characteristics in amorphous ribbons with GMI effect, J. Magn. Magn. Mater. 321 (2009) 1272-1275

[239] Z. W. Liu, Y. Liu, P. K. Deheri, R. V. Ramanujan, H. A. Davies, Improving Permanent Magnetic Properties of Rapidly Solidified Nanophase RE-TM-B Alloys by Compositional Modification, J. Magn. Magn. Mater. 321 (2009) 2290-2295

[240] Z. W. Liu, D. C. Zeng, R.V. Ramanujan, X. C. Zhong, H. A. Davies, Exchange interaction in rapidly solidified nanocrystalline RE-(Fe/Co)-B hard magnetic alloys, J. Appl. Phys. 105 (2009) 07A736

[241] Q. Y. Qu, W. Q. Qiu, D. C. Zeng, Z. W. Liu, M. J. Dai and K. S. Zhou, Effects of deposition parameters on microstructure and thermal conductivity of diamond films deposited by DC arc plasma jet chemical vapor deposition, The Nonferrous Metals Society of China, 19 (2009) 131-137 

[242] C. F. Zhang, X. C. Zhong, H. Y. Yu, Z. W. Liu and D. C. Zeng, Effects of Cobalt Doping on Microstructure and Magnetic Properties of Mn-Zn Ferrites Prepared by Co-precipitation Method, Physica B: Physics of Condensed Matter, 404 (2009) 2327-2331

[243] Z. W. Liu, H. A. Davies, Intergranular exchange interaction in nanocrystalline hard magnetic rare earth-iron-boron-based melt spun alloy ribbons, J. Phys. D: Appl. Phys. 42 (2009) 145006

[244] Z.W. Liu, R.V. Ramanujan, H.A Davies, Improved thermal stability of hard magnetic properties in rapidly solidified RE-TM-B alloys, Journal of Materials Research, 23 (2008) 2733-2742

[245] Li. MH, Yu. GH, Zhu. FW,Z.W. Liu,  et al. Influence of metal spacer on the properties and microstructure of multilayer films and analyses, THIN SOLID FILMS, 516 (2008) 2058-2062

[246] Chen. L, Zeng. DC, Qiu. WQ, Z.W. Liu, et al. Deposition and properties studies of superfine TiN films with magnetic filter, International Conference on Frontiers in Materials Science and Technology, Editor(s): Bell. J, Yan. C, Ye. L, et al. MAR 26-28, 2008, Queensland Univ Technol, Brisbane, AUSTRALIA. FRONTIERS IN MATERIALS SCIENCE AND TECHNOLOGY, Advanced Materials Research, 32 (2008) 61-64

[247] A. Purkayastha, Q.Y. Yan, M.S. Raghuveer, D.D. Gandhi, H.F. Li, Z.W. Liu, R.V. Ramanujan, T. Borca-Tasciuc, G. Ramanath, Surfactant-directed synthesis of branched bismuth telluride/sulfide core/shell nanorods, Advanced Materials, 20 (2008) 2679

[248] Z.W. Liu, S.G. Yang, R.V. Ramanujan, C.K. Ong, Confirmation of room temperature ferromagnetism for Mn doped ZnO micro-tetrapod powders, Materials Letters 62 (2008) 1255-1258

[249] Z.W. Liu, S.W. Yeo, C.K. Ong, Achieve p-type conduction in N doped and (Al,N) codoped ZnO films by oxidative annealing zinc nitride precursors, Journal of Materials Research, 22 (2007) 2688-2675

[250] Y. Liu, C.Y. Tan, Z.W. Liu, C.K. Ong, FeCoSiN thin films with FeCo nanoparticles embedded in the Si matrix, Appl. Phys. Lett. 90 (2007) 112506

[251]Z.W. Liu, S.W. Yeo, C.K. Ong, An alternative approach to in situ synthesize single crystalline ZnO nanowires by oxidizing zinc film, J. Mater. Sci., 42 (2007) 6489-6493

[252]Z.W. Liu, H.A. Davies, Irreversible magnetic losses for melt-spun nanocrystalline Nd/Pr-Fe/Co-(Dy)-B ribbons, J. Phys. D: Appl. Phys. 40 (2007), 315-319

[253]Z.W. Liu, Y. Liu, Y.G. Ma, C.Y. Tan, C.K. Ong, Co-based nano-granular thin films deposited on flexible substrate for gigahertz application, J. Magn. Magn. Mater. 313 (2007) 37-42

[254]Z.W. Liu, H.A. Davies, Practical limits of enhancing the room temperature magnetic properties for nanocrystalline NdPrDyFeCoB alloys, J. Magn. Magn. Mater. 313 (2007) 337-341

[255]Z.W. Liu, C.K. Ong, Synthesis and size control of ZnO nanorods by conventional PLD without catalyst, Materials Letters, 61 (2007) 3329-3333

[256]Z.W. Liu, L.X. Phua, Y. Liu, C.K. Ong, Microwave characteristics of low density hollow glass microspheres plated with Ni thin film, J. Appl. Phys. 100 (2006) 093902

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[258]Z.W. Liu, C.K. Ong, T. Yu, Z.X. Shen, Catalyst-free pulsed-laser-deposited ZnO nanorods and their photoluminescence properties, Appl. Phys. Lett. 88 (2006) 053110 （此文入選Virtual J. Nanoscale Sci. & Tech. MAY 30, 2006）

[259]Z.W. Liu, Y. Liu, L. Yan, C.Y. Tan, C.K. Ong, Thickness dependent properties of FeTaN thin films deposited on flexible substrate, J. Appl. Phys. 99 (2006) 043903

[260]Z.W. Liu, H.A. Davies, Sub-ambient magnetic properties of nanophase (Nd/Pr)-Fe-B based hard magnetic alloys, J. Alloys Comp. 424 (2006) 255-261

發(fā)表中文期刊論文：  

[1]余紅雅, 袁涵, 李競(jìng)舟, 劉仲武, 郭寶春, 楊建民, 陳榕寅. 通過(guò)優(yōu)化偶聯(lián)劑含量改善磁粉芯綜合性能[J]. 中國(guó)表面工程, 1-9.

[2]劉仲武, 何家毅, 曾超超, 陳世英. 高性能釹鐵硼永磁晶界擴(kuò)散技術(shù)最新進(jìn)展與未來(lái)展望[J]. 磁性材料及器件, 2023, 54 (04): 97-106.

[3]余紅雅, 李開(kāi)瀝, 黎向東, 劉仲武, 郭寶春, 李競(jìng)舟. 共混樹(shù)脂包覆鐵基磁粉芯的制備與性能[J]. 復(fù)合材料學(xué)報(bào), 2024, 41 (01): 315-322.

[4]鐘偉杰, 焦東玲, 邱萬(wàn)奇, 劉仲武. 熔體溫度和霧化壓力對(duì)氬氣霧化鎳基高溫合金粉末的影響[J]. 材料導(dǎo)報(bào), 2023, 37 (10): 147-152.

[5]魏崇陽(yáng), 張輝, 劉仲武, 鐘喜春, 焦東玲, 邱萬(wàn)奇, 余紅雅. 利用雙晶格勢(shì)進(jìn)行硅的分子動(dòng)力學(xué)模擬及其有效性[J]. 材料科學(xué)與工程學(xué)報(bào), 2022, 40 (06): 948-955.

[6]鐘偉杰, 焦東玲, 劉仲武, 劉娜, 李周, 張國(guó)慶. 分步酸溶法提取鎳基高溫合金粉末中的非金屬夾雜物[J]. 稀有金屬材料與工程, 2022, 51 (07): 2617-2624.

[7]余紅雅, 關(guān)少聰, 李競(jìng)舟, 劉仲武, 郭寶春, 陳榕寅. 基于磷化處理和雙馬來(lái)酰亞胺包覆鐵粉的高性能磁粉芯的工藝優(yōu)化[J]. 復(fù)合材料學(xué)報(bào), 2023, 40 (04): 2216-2223.

[8]陽(yáng)東, 胡錦文, 劉思成, 趙小嬌, 巨文博, 王宜, 劉仲武, 龍金, 胡健. FeSiAl尺寸對(duì)紙基復(fù)合材料靜態(tài)及動(dòng)態(tài)磁性能的影響[J]. 中國(guó)造紙, 2022, 41 (05): 25-31.

[9]賴曉翔, 余紅雅, 馮越, 鐘喜春, 劉仲武. 親疏水性SiO₂復(fù)合有機(jī)樹(shù)脂包覆對(duì)FeSiCr磁粉芯性能的影響[J]. 材料工程, 2022, 50 (02): 135-143.

[10]李修賢, 邱萬(wàn)奇, 焦東玲, 鐘喜春, 劉仲武. α籽晶促進(jìn)低溫反應(yīng)濺射沉積α-Al₂ O ₃ 薄膜[J]. 材料研究學(xué)報(bào), 2022, 36 (01): 8-12.

[11]劉志堅(jiān), 高遠(yuǎn), 何坤宏, 陳遠(yuǎn)星, 劉仲武. 速凝和滲氮制備高性能釤鐵氮磁粉及其粘結(jié)磁體的研究[J]. 金屬功能材料, 2021, 28 (06): 37-43.

[12]劉仲武, 何家毅. 釹鐵硼永磁晶界擴(kuò)散技術(shù)和理論發(fā)展的幾個(gè)問(wèn)題[J]. 金屬學(xué)報(bào), 2021, 57 (09): 1155-1170.

[13]程丹妮, 李開(kāi)瀝, 余紅雅, 劉仲武. 二次酸化表面改性制備高體積電阻率FeSiCr合金磁粉芯[J]. 材料科學(xué)與工程學(xué)報(bào), 2021, 39 (02): 259-263+287.

[14]胡景宇, 張輝, 鐘喜春, 劉仲武. Fe₈₄ Si _x B _10.5-x P ₅ Cu _0.5 合金的微觀結(jié)構(gòu)、熱穩(wěn)定性和磁性能[J]. 磁性材料及器件, 2021, 52 (02): 12-16.

[15]趙利忠, 張雪峰, 嚴(yán)密, 劉仲武, Jean-Marc Greneche. ⁵⁷Fe M?ssbauer spectrometry: A powerful technique to analyze the magnetic and phase characteristics in RE–Fe–B permanent magnets[J]. Chinese Physics B, 2021, 30 (01): 92-105.

[16]劉宇琨, 肖俊儒, 余紅雅, 劉仲武. 利用燒結(jié)釹鐵硼廢料制備的各向異性再生粘結(jié)磁體[J]. 磁性材料及器件, 2020, 51 (05): 20-25.

[17]樓華山, 王大紅, 樓江燕, 李宏軍, 莫文鋒, 劉仲武. 高性能A356鋁合金輪轂開(kāi)發(fā)技術(shù)研究進(jìn)展之二——輪轂成形強(qiáng)化技術(shù)[J]. 特種鑄造及有色合金, 2020, 40 (06): 619-622.

[18]樓華山, 王大紅, 樓江燕, 李宏軍, 莫文鋒, 劉仲武. 高性能A356鋁合金輪轂開(kāi)發(fā)技術(shù)研究進(jìn)展之一——爐內(nèi)精煉凈化技術(shù)[J]. 特種鑄造及有色合金, 2020, 40 (05): 507-512.

[19]劉靜, 胡勝龍, 劉仲武, 戴曉莉, 歐陽(yáng)玲玉, 張?jiān)��? 簫篤飛, 王健. 磁控濺射法制備的FePt薄膜的結(jié)構(gòu)與性能[J]. 磁性材料及器件, 2020, 51 (02): 9-15.

[20]胡勝龍, 劉靜, 劉仲武, 李蕓華, 姜云斐, 張?jiān)��? 徐曉宇, 劉秋生, 謝春麗. 化學(xué)共沉淀工藝及焙燒溫度對(duì)鋇鐵氧體納米粉末性能的影響[J]. 磁性材料及器件, 2019, 50 (06): 12-17.

[21]田憶蘭, 周璇, 余紅雅, 劉仲武* , 詹慧雄. 尿素共沉淀法回收釹鐵硼廢料中的稀土及鐵元素[J]. 稀有金屬, 2020, 44 (04): 427-432.

[22]鄭克勤, 呂旺燕, 聶銘, 王貽波, 劉仲武. 戶外高壓隔離開(kāi)關(guān)觸頭材料的腐蝕與防護(hù)分析[J]. 廣東電力, 2019, 32 (07): 124-133.

[23]鄭克勤, 呂旺燕, 劉仲武* . 銀-石墨烯復(fù)合鍍層的制備及鍍層性能[J]. 材料保護(hù), 2019, 52 (06): 84-89+105.

[24]程奕天, 邱萬(wàn)奇, 周克崧, 劉仲武, 焦東玲, 鐘喜春, 張輝. 低溫反應(yīng)濺射Al+α-Al₂ O ₃ 復(fù)合靶沉積α-Al ₂ O ₃ 薄膜[J]. 無(wú)機(jī)材料學(xué)報(bào), 2019, 34 (08): 862-866.

[25]李兆玉, 劉仲武, 鄒姝穎, 鐘喜春, 余紅雅, 陳熹, 張翼飛, 王開(kāi)祥. 稀土摻雜對(duì)MnZn鐵氧體顯微結(jié)構(gòu)和磁性能的影響[J]. 磁性材料及器件, 2019, 50 (03): 1-6.

[26]鄧沃湛, 劉仲武* , 張翼飛, 王開(kāi)祥. 燒結(jié)氧分壓對(duì)二次料制備的MnZn鐵氧體性能的影響[J]. 材料科學(xué)與工程學(xué)報(bào), 2019, 37 (02): 195-199.

[27]焦東玲, 鐘喜春, 許文勇, 邱萬(wàn)奇, 劉名濤, 劉仲武, 李周, 張國(guó)慶. 等離子噴涂制備MoSi₂ -CoNiCrAlY復(fù)合涂層的高溫氧化行為[J]. 稀有金屬材料與工程, 2019, 48 (04): 1135-1141.

[28]鄭克勤, 呂旺燕, 王貽波, 劉仲武. 表面活性劑復(fù)配對(duì)石墨烯分散性的影響及其在復(fù)合鍍銀中的應(yīng)用[J]. 電鍍與涂飾, 2019, 38 (04): 147-152.

[29]吳雅祥, 劉仲武, 王開(kāi)祥. 有限元法求解電磁場(chǎng)問(wèn)題的誤差分析[J]. 磁性材料及器件, 2019, 50 (01): 21-25+39.

[30]邱萬(wàn)奇, 李浩, 洪濤, 劉仲武, 鐘喜春, 焦東玲, 周克崧. CuCr0.5表面制備Cu-Diamond層及其性能[J]. 稀有金屬材料與工程, 2018, 47 (11): 3554-3558.

[31]鐘喜春, 郭興家, 廖僖, 劉仲武, 王開(kāi)祥, 張翼飛. 不同類(lèi)型電磁加熱用磁條材料的成分、結(jié)構(gòu)與性能對(duì)比分析[J]. 磁性材料及器件, 2018, 49 (04): 16-23.

[32]張振揚(yáng), 趙利忠, 張家勝, 鐘喜春, 劉仲武* . La ₂ Fe ₁₄ B和Ce ₂ Fe ₁₄ B合金在快淬和熱處理過(guò)程中相析出行為的比較[J]. 材料導(dǎo)報(bào), 2018, 32 (08): 1271-1275.

[33]邱萬(wàn)奇, 王書(shū)林, 程奕天, 劉仲武, 鐘喜春, 焦東玲, 周克崧. 低溫反應(yīng)濺射沉積α-(Al,Cr)_2O_3膜[J]. 材料研究學(xué)報(bào), 2018, 32 (04): 278-282.

[34]肖俊儒, 劉仲武* , 樓華山, 詹慧雄. 利用Pr ₇₀ Cu ₃₀ 晶界擴(kuò)散改善燒結(jié)釹鐵硼廢料矯頑力的研究[J]. 物理學(xué)報(bào), 2018, 67 (06): 228-236.

[35]唐春梅, 廖欣悅, 余紅雅, 劉仲武* . 熱氧化濺射鍍銅膜制備CuO納米棒及其光致發(fā)光特性[J]. 科學(xué)通報(bào), 2018, 63 (02): 224-231.

[36]廖僖, 吳雅祥, 郭興家, 鐘喜春, 劉仲武* , 張翼飛, 任玉潔, 王開(kāi)祥. 結(jié)構(gòu)和材料參數(shù)對(duì)電磁爐鍋具底部磁通密度的影響[J]. 磁性材料及器件, 2017, 48 (06): 19-23+64.

[37]鄒姝穎, 鐘喜春, 劉仲武, 張翼飛, 王開(kāi)祥. V₂ O ₅ 摻雜改善錳鋅鐵氧體組織及性能的研究[J]. 電子元件與材料, 2017, 36 (10): 27-30.

[38]劉健, 李偉, 王啟祥, 許可, 周慶, 鐘喜春, 劉仲武* . 壓力對(duì)燒結(jié)釹鐵硼磁體NdCu晶界擴(kuò)散的影響[J]. 材料熱處理學(xué)報(bào), 2017, 38 (07): 28-32.

[39]田憶蘭, 楊旖旎, 唐春梅, 劉仲武. 燒結(jié)NdFeB磁體表面沉積Ni膜及其耐腐蝕性[J]. 材料保護(hù), 2017, 50 (04): 1-5+14.

[40]鄒姝穎, 廖僖, 劉仲武* , 張翼飛. 電磁加熱用MnZn鐵氧體球磨預(yù)燒工藝研究[J]. 熱加工工藝, 2017, 46 (06): 67-70.

[41]鐘喜春, 沈小艷, 劉仲武. Magnetocaloric properties,microhardness and corrosion resistance of Gd_100-x Zr _x  alloys[J]. Journal of Rare Earths, 2016, 34 (09): 889-894.

[42]劉靜, 胡勝龍, 黃有林, 劉仲武. Nd_δFe₁₄ B(δ=2.18～11)納米晶合金的性能及矯頑力機(jī)理分析[J]. 磁性材料及器件, 2016, 47 (04): 10-13+17.

[43]郭云峰, 劉仲武. 200目FeSiAl粉末-125材料磁導(dǎo)率和損耗性能的改進(jìn)[J]. 冶金叢刊, 2016, (03): 50-53.

[44]鐘喜春* , 胡庚, 郭興家,   劉仲武 . 流動(dòng)溫壓成型黏結(jié)釹鐵硼/鍶鐵氧體復(fù)合磁體的研究[J]. 材料工程, 2016, 44 (04): 9-13.

[45]鐘喜春, 胡庚, 郭興家, 劉仲武. 粘結(jié)劑對(duì)粘結(jié)釹鐵硼/鍶鐵氧體復(fù)合磁體磁性能的影響[J]. 材料科學(xué)與工藝, 2015, 23 (05): 94-98.

[46]鐘喜春, 胡庚, 郭興家, 劉仲武. 固化條件對(duì)粘結(jié)復(fù)合磁體磁性能和抗壓強(qiáng)度的影響[J]. 材料熱處理學(xué)報(bào), 2015, 36 (S1): 16-21.

[47]朱忠仁, 余紅雅, 鄭志剛, 鐘喜春, 劉仲武, 曾德長(zhǎng), 匡同春. 銅模鑄造法制備Mn_1.15 Fe _0.85 P l _0.55 Si _0.45 化合物及其磁相變研究[J]. 功能材料, 2015, 46 (08): 8119-8123.

[48]張家勝, 王進(jìn), 鄭志剛, 劉仲武, 余紅雅, 陳燕凌, 汪民. 熱處理溫度對(duì)Fe_83.5 B ₁₅ Cu _1.5 合金結(jié)構(gòu)及性能影響[J]. 磁性材料及器件, 2015, 46 (02): 6-9+20.

[49]侯育花, 黃有林, 劉仲武, 曾德長(zhǎng). 稀土摻雜對(duì)鈷鐵氧體電子結(jié)構(gòu)和磁性能影響的理論研究[J]. 物理學(xué)報(bào), 2015, 64 (03): 456-461.

[50]劉泓, 甘衛(wèi)平, 劉仲武, 鄭峰. Composition change and capacitance properties of ruthenium oxide thin film[J]. Journal of Central South University, 2015, 22 (01): 8-13.

[51]陳星婷, 邱萬(wàn)奇* ,   劉仲武 , 匡同春, 曾德長(zhǎng), 周克崧. 鑲嵌結(jié)構(gòu)界面金剛石成膜機(jī)制的研究[J]. 稀有金屬材料與工程, 2014, 43 (12): 3100-3103.

[52]黃有林, 侯育花, 馬勝燦, 鐘震晨, 劉仲武* , 曾德長(zhǎng), 高學(xué)緒, 朱潔. 應(yīng)變速率對(duì)熱變形NdFeB磁體微觀結(jié)構(gòu)和性能的影響[J]. 稀有金屬材料與工程, 2014, 43 (11): 2748-2752.

[53]王進(jìn), 萬(wàn)娟, 鄭志剛, 劉仲武* , 汪民. 鐵粉芯環(huán)形磁體的制備工藝優(yōu)化[J]. 電子元件與材料, 2014, 33 (11): 56-60.

[54]劉泓, 劉仲武, 尹育航. 不同燒結(jié)溫度時(shí)的陶瓷基復(fù)合材料界面和性能[J]. 華南理工大學(xué)學(xué)報(bào)(自然科學(xué)版), 2014, 42 (10): 14-19.

[55]鐘喜春, 高貝貝, 王珊珊, 鄭志剛, 劉仲武, 曾德長(zhǎng), 余紅雅. Gd-Co二元非晶及晶態(tài)合金的磁性和大磁熱效應(yīng)[J]. 功能材料, 2014, 45 (S1): 111-116.

[56]劉泓, 劉仲武, 楊嘉春. 燒結(jié)方式對(duì)金剛石微粉氧化、形貌和砂輪磨削性能的影響[J]. 金剛石與磨料磨具工程, 2014, 34 (03): 30-33.

[57]謝忍, 韋俊, 劉仲武, 唐妍梅, 唐濤, 唐少龍, 都有為. Evolution of magnetic domain structure of martensite in Ni–Mn–Ga films under the interplay of the temperature and magnetic field[J]. Chinese Physics B, 2014, 23 (06): 578-583.

[58]劉名濤, 鐘喜春, 劉仲武, 曾德長(zhǎng), 李周, 張國(guó)慶. 等離子噴涂制備MoSi₂ -CoNiCrAlY納米復(fù)合涂層的結(jié)構(gòu)與性能[J]. 材料工程, 2014, (05): 17-22.

[59]鐘明龍, 劉仲武* , 焦東玲, 鐘喜春, 余紅雅, 曾德長(zhǎng). 大面積α-Fe ₂ O ₃ 納米帶的熱氧化制備及其磁性能[J]. 功能材料, 2014, 45 (06): 6126-6130.

[60]邱萬(wàn)奇, 胡志剛, 劉仲武, 曾德長(zhǎng), 周克崧. 銅基體預(yù)沉積銅-金剛石復(fù)合過(guò)渡層金剛石膜的制備與表征（英文）[J]. Transactions of Nonferrous Metals Society of China, 2014, 24 (03): 758-763.

[61]劉建英, 郭盛, 劉仲武* , 肖方明. 表面活性劑輔助球磨制備的各向異性Nd-Fe-B粉末形貌與性能[J]. 磁性材料及器件, 2014, 45 (02): 18-22.

[62]邱萬(wàn)奇, 吳強(qiáng), 劉仲武, 曾德長(zhǎng), 周克崧. 壓痕法研究鑲嵌結(jié)構(gòu)界面金剛石膜粘附性能[J]. 稀有金屬材料與工程, 2014, 43 (02): 381-385.

[63]劉泓, 劉仲武, 趙志系. CBN砂輪磨削參數(shù)對(duì)軸承內(nèi)圓表面粗糙度的影響[J]. 金剛石與磨料磨具工程, 2013, 33 (06): 30-33.

[64]馬壘, 劉仲武, 曾德長(zhǎng), 鐘夏平, 成鋼. Co-C顆粒膜的結(jié)構(gòu)、磁性能和GMR效應(yīng)研究[J]. 稀有金屬材料與工程, 2013, 42 (08): 1659-1663.

[65]黃有林, 侯育花* , 趙宇軍,  劉仲武 , 曾德長(zhǎng), 馬勝燦. 應(yīng)變對(duì)鈷鐵氧體電子結(jié)構(gòu)和磁性能影響的第一性原理研究[J]. 物理學(xué)報(bào), 2013, 62 (16): 387-392.

[66]楊漢高, 侯惠君, 劉仲武, 韋春貝. 結(jié)構(gòu)鋼等離子氮碳共滲與氧化復(fù)合處理概述和應(yīng)用[J]. 熱加工工藝, 2013, 42 (06): 135-139.

[67]J. H. Willy, 王剛, 劉仲武. Glass formation for iron-based alloys by combining kinetic and thermodynamic parameters[J]. Journal of Central South University, 2013, 20 (02): 293-300.

[68]閔繼雄, 鐘喜春, 鄭志剛, 劉仲武, 曾德長(zhǎng), 余紅雅, 邱萬(wàn)奇. Gd_99.75 Fe _0.25 合金的大磁熱效應(yīng)及應(yīng)用特性研究[J]. 稀有金屬材料與工程, 2013, 42 (02): 362-365.

[69]楊漢高, 侯惠君, 劉仲武, 代明江, 韋春貝, 藍(lán)恩輝. 42CrMo鋼等離子氮碳共滲厚化合物層工藝及組織性能[J]. 金屬熱處理, 2012, 37 (12): 10-13.

[70]高貝貝, 鐘喜春, 鄭志剛, 劉仲武, 曾德長(zhǎng). 熔體快淬La_1-x Ce _x (Fe _0.92 Co _0.08 ) _11.4 Si _1.6 合金的結(jié)構(gòu)和大磁熵變[J]. 材料研究學(xué)報(bào), 2012, 26 (05): 511-514.

[71]鄭志剛, 牛吉梅, 劉仲武, 曾德長(zhǎng). 基于產(chǎn)學(xué)研合作的材料類(lèi)創(chuàng)新型研究生培養(yǎng)模式探討[J]. 科技信息, 2012, (29): 237+263.

[72]萬(wàn)娟, 鄭志剛, 王進(jìn), 劉仲武. Fe-Si-B非晶磁粉芯的制備及其軟磁性能[J]. 電子元件與材料, 2012, 31 (10): 45-48.

[73]鐘喜春, 黃有林, 劉云鶴, 劉仲武, 曾德長(zhǎng). NdFeB磁粉對(duì)粘結(jié)NdFeB/鍶鐵氧體復(fù)合磁體性能的影響[J]. 電子元件與材料, 2012, 31 (10): 41-44.

[74]王剛, 曾德長(zhǎng), 劉仲武. 三元合金中界面遷移率的相場(chǎng)法計(jì)算(英文)[J]. Transactions of Nonferrous Metals Society of China, 2012, 22 (07): 1711-1716.

[75]唐鵬飛, 鐘喜春, 鄭志剛, 余紅雅, 邱萬(wàn)奇, 曾德長(zhǎng), 劉仲武. Nb摻雜Gd合金的大磁熱效應(yīng)和顯微硬度增強(qiáng)[J]. 稀有金屬材料與工程, 2012, 41 (06): 1090-1093.

[76]邱萬(wàn)奇, 潘建偉, 劉仲武, 余紅雅, 鐘喜春, 曾德長(zhǎng). 電鍍鉻金剛石復(fù)合過(guò)渡層提高金剛石膜/基結(jié)合力[J]. 無(wú)機(jī)材料學(xué)報(bào), 2012, 27 (02): 205-208.

[77]劉云鶴, 鐘喜春, 黃有林, 劉仲武, 曾德長(zhǎng), 余紅雅, 邱萬(wàn)奇. 流動(dòng)溫壓成型時(shí)間和溫度對(duì)粘結(jié)釹鐵硼/鐵氧體復(fù)合磁體性能的影響[J]. 磁性材料及器件, 2011, 42 (06): 42-46.

[78]邱萬(wàn)奇, 陳星婷, 劉仲武, 鐘喜春, 余紅雅, 曾德長(zhǎng). 鑲嵌結(jié)構(gòu)界面金剛石涂層研究進(jìn)展[J]. 真空科學(xué)與技術(shù)學(xué)報(bào), 2011, 31 (06): 691-695.

[79]吳姚莎, 邱萬(wàn)奇, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng), 李尚周. 納米Ni60-TiB₂ 復(fù)合涂層的超音速火焰噴涂制備及600℃循環(huán)氧化特性[J]. 材料研究學(xué)報(bào), 2011, 25 (04): 391-398.

[80]吳姚莎, 邱萬(wàn)奇, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng), 李尚周. 高能球磨制備N(xiāo)i60-TiB₂ 納米金屬基陶瓷結(jié)構(gòu)喂料及其結(jié)構(gòu)特性[J]. 稀有金屬材料與工程, 2011, 40 (S2): 507-511. 

[81]張輝, 曾德長(zhǎng), 劉仲武. 壓應(yīng)力對(duì)Fe_(0.81)Ga_(0.19)單晶磁化和磁致伸縮的影響[J]. 物理學(xué)報(bào), 2011, 60 (06): 672-676.

[82]吳姚莎, 邱萬(wàn)奇, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng), 李尚周. PS45/CuAl8偽合金復(fù)合涂層高溫循環(huán)氧化行為[J]. 材料研究學(xué)報(bào), 2011, 25 (02): 129-134.

[83]單小璇, 劉仲武, 余紅雅, 鐘喜春, 邱萬(wàn)奇, 曾德長(zhǎng). 化學(xué)共沉法制備的高飽和磁化強(qiáng)度Fe_(65)Co_(35)合金納米顆粒[J]. 磁性材料及器件, 2011, 42 (02): 20-24.

[84]黃華勇, 劉仲武, 李小強(qiáng), 高學(xué)緒, 余紅雅, 鐘喜春, 朱潔, 曾德長(zhǎng). 放電等離子燒結(jié)納米晶NdFeB合金的組織特征和磁性能[J]. 磁性材料及器件, 2011, 42 (02): 9-12.

[85]黃華勇, 劉仲武, 李小強(qiáng), 高學(xué)緒. 基于快淬NdFeB粉末的放電等離子燒結(jié)永磁的組織和性能[J]. 熱加工工藝, 2011, 40 (06): 15-18.

[86]唐鵬飛, 鐘喜春, 鄭志剛, 余紅雅, 邱萬(wàn)奇, 劉仲武, 曾德長(zhǎng). Gd₅₅Fe₃₀ P ₁₅ 非晶條帶的磁熱效應(yīng)[J]. 磁性材料及器件, 2011, 42 (01): 12-15.

[87]鄭志剛, 鐘喜春, 唐鵬飛, 余紅雅, 邱萬(wàn)奇, 劉仲武, 曾德長(zhǎng). 熔體快淬Gd₉₆ V ₄ 合金的磁性能和磁熱效應(yīng)[J]. 材料研究與應(yīng)用, 2010, 4 (04): 504-508.

[88]邱萬(wàn)奇, 蔡明, 鐘喜春, 余紅雅, 劉仲武, 曾德長(zhǎng). 電弧離子鍍AlN薄膜的光致發(fā)光性能的研究[J]. 材料研究與應(yīng)用, 2010, 4 (04): 572-576.

[89]鄭志剛, 鐘喜春, 余紅雅, 蘇昆朋, 劉仲武, 曾德長(zhǎng). Fe₃ O ₄ 磁性納米顆粒的制備及性能表征[J]. 電子元件與材料, 2010, 29 (07): 27-29+39.

[90]鄭志剛, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng). 室溫磁制冷工質(zhì)金屬Gd的防腐研究[J]. 磁性材料及器件, 2010, 41 (03): 19-21+45.

[91]羅潔, 陳川, 劉仲武, 余紅雅, 鐘喜春, 曾德長(zhǎng), 聞立時(shí). Ta取代對(duì)納米復(fù)合NdFeB合金的影響機(jī)理研究[J]. 磁性材料及器件, 2010, 41 (02): 11-15.

[92]李宇明, 余紅雅, 劉仲武, 曾德長(zhǎng). 冷卻速度對(duì)快淬Fe-Si-B-Cu合金結(jié)構(gòu)和磁性能的影響[J]. 熱加工工藝, 2010, 39 (06): 135-138.

[93]戴慧萃, 劉仲武, 曾德長(zhǎng), 余紅雅. 沸騰回流法制備的MnZn鐵氧體納米粉末[J]. 磁性材料及器件, 2010, 41 (01): 20-23+31.

[94]容勝忠, 余紅雅, 鐘喜春, 劉仲武, 曾德長(zhǎng), 謝金強(qiáng). 基于YF30預(yù)燒料的La-Co摻雜鍶鐵氧體的磁性能研究[J]. 磁性材料及器件, 2010, 41 (01): 48-50+55.

[95]張存芳, 余紅雅, 鐘喜春, 曾德長(zhǎng), 劉仲武, 鄔曙國(guó), 單連軍. 高能球磨法制備Mn-Zn鐵氧體材料的研究[J]. 材料導(dǎo)報(bào), 2009, 23 (12): 8-10.

[96]張存芳, 曾德長(zhǎng), 劉仲武, 鄔曙國(guó), 單連軍. 球磨與共沉淀法制備MnZn鐵氧體的對(duì)比研究[J]. 電子元件與材料, 2009, 28 (03): 49-52.

[97]  瞿全炎,邱萬(wàn)奇,曾德長(zhǎng),劉正義.劃痕法綜合評(píng)定膜基結(jié)合力,真空科學(xué)技術(shù)學(xué)報(bào)(Chinese J. Vacuum Sci. Techn.), 29 (2009) 184

[98] 陳志坤,劉敏,曾德長(zhǎng),馬文有,激光熔覆裂紋的產(chǎn)生原因及消除方法探究,激光雜志, 30 (1) 2009

[99] 陳靈,曾德長(zhǎng),邱萬(wàn)奇,董小虹,黎炳雄,黃拿燦. (Ti, Cr)N復(fù)合涂層組織結(jié)構(gòu)與力學(xué)性能的研究,真空科學(xué)與技術(shù)學(xué)報(bào), 29 (1) 2009

[100] 電沉積Sn-Bi合金工藝的研究, El, ctroplating & Pollution Control, 2009/05

[101] 一種智能流量傳感器的研制, Modern Scientific Instruments, 2009/04

[102] TiAlCrN和TiAlCrN/CrN復(fù)合膜的微觀組織與力學(xué)性能, The Chinese Journal of Nonferrous Metals, 2009/09

[103] 銅表面激光熔覆鎳基合金的顯微組織與硬度,機(jī)械工程材料, 2009/01

[104] 帶材非對(duì)稱巨磁阻抗效應(yīng)的建模及數(shù)值計(jì)算,華南理工大學(xué)學(xué)報(bào)(自然科學(xué)版), 2009/02

[105] 電沉積制備Sn-Cu無(wú)鉛釬料電鍍工藝的研究,電鍍與環(huán)保, 2009/03

[106] M2和H13鋼離子滲氮-電弧鍍TiAlCrN膜復(fù)合技術(shù),材料熱處理學(xué)報(bào), 2009/04

[107 ]    余紅雅,吳姚莎,曾德長(zhǎng),許麟康, 9Cr18MoV高碳馬氏體不銹鋼模具斷裂失效分析,第十四屆全國(guó)疲勞與斷裂學(xué)術(shù)會(huì)議, 2008

[108] 瞿全炎,曾德長(zhǎng),史新偉,劉正義,用彎曲磁過(guò)濾提高弧離子鍍TiN薄膜質(zhì)量,兵器材料科學(xué)與工程, 2008, 31 (4): 36-40

[109] 游世輝,曾德長(zhǎng),陳子娟.用Taylor展開(kāi)隨機(jī)無(wú)網(wǎng)格法和免疫算法分析結(jié)構(gòu)可靠性[J].機(jī)械強(qiáng)度, 2008, 30 (2): 207~211

[110] 曾娣平,張亞輝,曾德長(zhǎng),夏凌峰.混合染料偏振薄膜的偏振性能分析[J].染料與染色, 2008, (2)

[111] 曾娣平,張亞輝,邱萬(wàn)奇,曾德長(zhǎng),聞立時(shí).混合磺化還原染料偏振薄膜的偏振性能研究[J].現(xiàn)代顯示, 2008, (5)

[112] 余紅雅,劉正義,曾德長(zhǎng),謝金強(qiáng).各向異性永磁鍶鐵氧體的晶粒取向與磁性[J].北京科技大學(xué)學(xué)報(bào), 2008, (5): 537-539, 557

[113] 鄭志剛,鐘喜春,張亞輝,曾德長(zhǎng),趙杰,鄔曙國(guó),黃冠偉,單連軍.納米錳鋅鐵氧體的制備與結(jié)構(gòu)特性[J].北京科技大學(xué)學(xué)報(bào), 2008, (5): 527-531

[114] 曾德長(zhǎng),鄭志剛,鐘喜春,余紅雅,黃偉東.室溫磁致冷技術(shù)應(yīng)用研究進(jìn)展[J].日用電器, 2008, (1): 50-55

[115] 邱萬(wàn)奇,傅濤,向興華,陳靈,擋板對(duì)電弧離子鍍TiN薄膜性能的影響,金屬熱處理, 2008, 33 (2): 41-43

[116] 牛吉梅,向興華,李尚周,曾德長(zhǎng),不等厚板MAG單面焊雙面成形工藝研究,金屬鑄鍛焊技術(shù), 2008, 35 (5): 103-105

[117] 潘涵,魏興釗,鐘喜春,朱偉恒,許麟康.海上石油鉆井管線空泡腐蝕導(dǎo)致穿孔的失效分析,兵器材料科學(xué)與工程, 2008, 31 (3): 66-70

[118] 譚杰,曾德長(zhǎng),張亞輝,納米MnZn鐵氧體粉體的水熱法制備和研究,中國(guó)粉體工業(yè), 2008, 3: 26-30

發(fā)表會(huì)議論文：

[1]曾超超, 魏祖春, 余紅雅 & 劉仲武. (2023). 輕稀土晶界擴(kuò)散提升燒結(jié)釹鐵硼矯頑力的機(jī)制研究. (eds.) 中國(guó)稀土學(xué)會(huì)第四屆青年學(xué)術(shù)會(huì)議摘要集 (pp.78).

[2]劉仲武. (2023). 釹鐵硼永磁材料中稀土資源的綜合高效利用. (eds.) 中國(guó)稀土學(xué)會(huì)第四屆青年學(xué)術(shù)會(huì)議摘要集 (pp.89).

[3]周幫, 李偉, 文林, 余紅雅, 鐘喜春, 趙利忠 & 劉仲武. (2023). 微量元素Ge改善納米晶(Ce,La,Y)-Fe-B合金的磁性能及其機(jī)制研究. (eds.) 中國(guó)稀土學(xué)會(huì)第四屆青年學(xué)術(shù)會(huì)議摘要集 (pp.77).

[4]何家毅, 宋文玥, 余紅雅 & 劉仲武. (2022). 利用異質(zhì)晶界擴(kuò)散提高釹鐵硼永磁矯頑力與重稀土利用效率. (eds.) 中國(guó)稀土學(xué)會(huì)2022學(xué)術(shù)年會(huì)、第十四屆中國(guó)包頭•稀土產(chǎn)業(yè)論壇摘要集 (pp.123).

[5]趙利忠, 劉仲武 & 張雪峰. (2022). 多稀土協(xié)同永磁材料. (eds.) 中國(guó)稀土學(xué)會(huì)2022學(xué)術(shù)年會(huì)、第十四屆中國(guó)包頭•稀土產(chǎn)業(yè)論壇摘要集 (pp.120).

[6]劉仲武, 何家毅, 宋文玥, 俞志高 & 余紅雅. (2021). 釹鐵硼永磁制備中晶界擴(kuò)散劑的高效利用技術(shù)研究. (eds.) 中國(guó)稀土學(xué)會(huì)2021學(xué)術(shù)年會(huì)論文摘要集 (pp.74).

[7]鐘喜春, 吳思?jí)? 劉仲武, 余紅雅, 黃焦宏, 鐘明龍 & 鐘震晨. (2021). LaFe_11.6 Si _1.4 /Pr-Co磁制冷復(fù)合材料的SPS制備與性能研究. (eds.) 中國(guó)稀土學(xué)會(huì)2021學(xué)術(shù)年會(huì)論文摘要集 (pp.110). 

[8]許可,廖雪峰,張家勝,何家毅,范文兵,余紅雅... & 劉仲武. (2020). 磁粉狀態(tài)和原位擴(kuò)散對(duì)熱變形釹鐵硼磁體組織和性能的影響. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.99).

[9]范文兵,廖雪峰,張家勝,許可,何家毅,余紅雅... & 劉仲武. (2020). 雙主相Nd-Ce-Fe-B熱變形磁體的熱穩(wěn)定性和磁性能研究. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.100).

[10]鐘喜春, 董旭濤, 黃焦宏, 張虎, 余紅雅 & 劉仲武. (2020). 基于熱壓燒結(jié)與晶界擴(kuò)散的LaFe_11.6 Si _1.4 /Ce ₄₀ Co ₆₀ 大塊復(fù)合材料的磁熱效應(yīng)與力學(xué)性能研究. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.183). 

[11]吳思?jí)?董旭濤,鐘喜春,黃焦宏,張虎,鐘明龍... & 劉仲武. (2020). 高致密La-Fe-Si基磁制冷材料的SPS制備與性能研究. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.182).

[12]何家毅,廖雪峰,張家勝,許可,范文兵,余紅雅... & 劉仲武. (2020). 利用Al-Cr涂層實(shí)現(xiàn)釹鐵硼永磁表面防護(hù)和改善矯頑力的研究. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.97).

[13]廖雪峰,張家勝,許可,何家毅,范文兵,余紅雅... & 劉仲武. (2020). 基于純高豐度稀土的多元RE-Fe-B永磁材料的設(shè)計(jì)和制備. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.98).

[14]劉仲武. (2020). 全高豐度稀土納米晶永磁材料研究進(jìn)展. (eds.) 中國(guó)稀土學(xué)會(huì)2020學(xué)術(shù)年會(huì)暨江西(贛州)稀土資源綠色開(kāi)發(fā)與高效利用大會(huì)摘要集 (pp.120). 華南理工大學(xué)材料科學(xué)與工程學(xué)院;

[15]董旭濤,彭得然,吳思?jí)?鐘喜春,黃焦宏,張虎... & 劉仲武. (2019). LaFe_11.6 Si _1.4 /Ce ₂ Co ₇ 復(fù)合材料制備工藝改進(jìn)及晶界擴(kuò)散過(guò)程研究. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.16). 

[16]鐘喜春,彭得然,董旭濤,吳思?jí)?黃焦宏,張虎... & 劉仲武. (2019). 基于熱壓與晶界擴(kuò)散的La(Fe,Si)_(13)基磁熱復(fù)合材料的制備與性能研究. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.18).

[17]趙利忠, 劉仲武 & 嚴(yán)密. (2019). 含鑭鈰RE-Fe-B磁體的冶金行為及磁性能優(yōu)化研究. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.7-8).

[18]劉仲武. (2019). 基于全豐量稀土的納米晶永磁合金和熱變形磁體. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.14-15).

[19]廖雪峰, 張家勝, 余紅雅, 鐘喜春 & 劉仲武. (2019). Y、Si添加對(duì)Ce-Fe-B快淬合金成分非均質(zhì)性和磁性能的影響. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.22).

[20]廖雪峰, 張家勝, 劉奕彤, 余紅雅, 鐘喜春 & 劉仲武. (2019). 納米晶RE-Fe-B(RE=La,Ce,Y)永磁合金的性能優(yōu)化. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.21).

[21]何家毅, 曾慧欣, 張家勝, 廖雪峰, 余紅雅, 鐘喜春 & 劉仲武. (2019). 利用高豐度稀土晶界擴(kuò)散改善NdFeB永磁矯頑力的探索研究. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.23-24).

[22]胡錦文, 李兆玉, 鐘喜春, 余紅雅, 龍克文, 張虎 & 劉仲武. (2019). Ce₂ O ₃ 、La ₂ O ₃ 等稀土氧化物添加對(duì)錳鋅鐵氧體軟磁性能的影響. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.25). 

[23]劉奕彤, 廖雪峰, 張家勝, 余紅雅 & 劉仲武. (2019). 釹和釓替代對(duì)快淬釔鐵硼合金熱穩(wěn)定性和耐腐蝕性的影響. (eds.) 稀土元素鑭鈰釔應(yīng)用研究研討會(huì)暨廣東省稀土產(chǎn)業(yè)技術(shù)聯(lián)盟成立大會(huì)摘要集 (pp.26).

[24]劉仲武. (2019). 稀土永磁晶界擴(kuò)散技術(shù)和理論發(fā)展的幾個(gè)問(wèn)題. (eds.) 第九屆國(guó)際稀土開(kāi)發(fā)與應(yīng)用研討會(huì)暨2019中國(guó)稀土學(xué)會(huì)學(xué)術(shù)年會(huì)摘要集 (pp.76).

[25]楊旖旎, 唐春梅, 田憶蘭, 鐘喜春 & 劉仲武. (2015). 燒結(jié)NdFeB表面濺射沉積Al(Ni)薄膜及其耐腐蝕性研究. (eds.) 2015中國(guó)功能新材料學(xué)術(shù)論壇暨第四屆全國(guó)電磁材料及器件學(xué)術(shù)會(huì)議摘要集 (pp.68).

[26]彭翰林, 焦東玲, 李周, 劉仲武 & 張國(guó)慶. (2015). 氬氣霧化第三代鎳基高溫合金粉末粒度對(duì)組織和結(jié)構(gòu)的影響. (eds.) 第十三屆中國(guó)高溫合金年會(huì)摘要文集 (pp.202).

[27]焦東玲, 彭翰林, 鄭亮, Hong Z.L., 李周, 劉仲武 & 張國(guó)慶. (2015). 一種氬氣霧化鎳基高溫合金粉末的組織結(jié)構(gòu)研究. (eds.) 第十三屆中國(guó)高溫合金年會(huì)論文集 (pp.420-424).

[28]伍雪花, 王剛, 曾德長(zhǎng) & 劉仲武. (2013). 相場(chǎng)法預(yù)測(cè)Fe-25%B二元非晶合金的玻璃形成能力. (eds.) 2013廣東材料發(fā)展論壇——戰(zhàn)略性新興產(chǎn)業(yè)發(fā)展與新材料科技創(chuàng)新研討會(huì)論文摘要集 (pp.172-173).

[29]鐘喜春, 劉云鶴, 胡庚, 劉仲武, 余紅雅 & 曾德長(zhǎng). (2013). 粘結(jié)釹鐵硼/鍶鐵氧體復(fù)合磁體的制備與性能. (eds.) 2013廣東材料發(fā)展論壇——戰(zhàn)略性新興產(chǎn)業(yè)發(fā)展與新材料科技創(chuàng)新研討會(huì)論文摘要集 (pp.181-182).

[30]曾燕萍, 劉仲武, 鄭志剛, 余紅雅 & 曾德長(zhǎng). (2012). FeCo-Si-N顆粒膜中的大的室溫正磁電阻. (eds.) 2012中國(guó)功能新材料學(xué)術(shù)論壇暨第三屆全國(guó)電磁材料及器件學(xué)術(shù)會(huì)議論文摘要集 (pp.124).

[31]閔繼雄, 鐘喜春, 鄭志剛, 劉仲武, 曾德長(zhǎng) & 余紅雅. (2012). 晶化處理對(duì)Gd₆₅ Mn ₂₅ Si ₁₀ 快淬條帶磁性能的影響. (eds.) 2012中國(guó)功能新材料學(xué)術(shù)論壇暨第三屆全國(guó)電磁材料及器件學(xué)術(shù)會(huì)議論文摘要集 (pp.70). 

[32]黃有林, 劉仲武 & 曾德長(zhǎng). (2012). 放電等離子燒結(jié)納米晶NdFeB磁體的微觀結(jié)構(gòu)及其熱變形行為. (eds.) 2012中國(guó)功能新材料學(xué)術(shù)論壇暨第三屆全國(guó)電磁材料及器件學(xué)術(shù)會(huì)議論文摘要集 (pp.46).

[33]檀竹才, 鄭志剛, 鐘喜春, 劉仲武, 余紅雅 & 曾德長(zhǎng). (2012). Mn_1.2 Fe _0.8 P _0.6 Si _0.4 B _x (x=0,0.03,0.05)合金的結(jié)構(gòu)和磁熱效應(yīng). (eds.) 2012中國(guó)功能新材料學(xué)術(shù)論壇暨第三屆全國(guó)電磁材料及器件學(xué)術(shù)會(huì)議論文摘要集 (pp.52). 

[34]馮德元 & 劉仲武. (2012). 快速凝固Sm(Co,Zr)₇ 合金的結(jié)構(gòu)、各向異性與硬磁性能. (eds.) 2012中國(guó)功能新材料學(xué)術(shù)論壇暨第三屆全國(guó)電磁材料及器件學(xué)術(shù)會(huì)議論文摘要集 (pp.53). 

[35]鄭志剛, 鐘喜春, 唐鵬飛, 余紅雅, 邱萬(wàn)奇, 劉仲武 & 曾德長(zhǎng). (2010). 熔體快淬Gd₉₆ V i ₄ 合金的磁性能和磁熱效應(yīng). (eds.) 低碳技術(shù)與材料產(chǎn)業(yè)發(fā)展研討會(huì)論文集 (pp.276-280). 

[36]邱萬(wàn)奇, 蔡明, 鐘喜春, 余紅雅, 劉仲武 & 曾德長(zhǎng). (2010). 電弧離子鍍AIN薄膜的光致發(fā)光性能的研究. (eds.) 低碳技術(shù)與材料產(chǎn)業(yè)發(fā)展研討會(huì)論文集 (pp.344-348). 華南理工大學(xué)材料科學(xué)與工程學(xué)院;

[37]鐘喜春,張虎,劉仲武,曾德長(zhǎng),余紅雅,邱萬(wàn)奇... & V.K.Pecharsky. (2010). 熱處理對(duì)Gd₅ Sn ₄ 合金結(jié)構(gòu)與磁性能的影響. (eds.) 第七屆中國(guó)功能材料及其應(yīng)用學(xué)術(shù)會(huì)議論文集（第3分冊(cè)） (pp.435-438). 

[38]邱萬(wàn)奇, 曾艷祥, 賀禮賢, 劉仲武, 曾德長(zhǎng), 鐘喜春 & 余紅雅. (2010). 銅基鑲嵌結(jié)構(gòu)界面金剛石涂層及其膜/基結(jié)合力的研究. (eds.) 第七屆中國(guó)功能材料及其應(yīng)用學(xué)術(shù)會(huì)議論文集（第5分冊(cè)） (pp.391-394).

[39]陳川, 劉仲武, 曾德長(zhǎng), 鐘喜春, 余紅雅, 邱萬(wàn)奇 & Raju V.Ramanujan. (2010). 碳、硼和稀土添加MnAl基合金的結(jié)構(gòu)和硬磁性能. (eds.) 第七屆中國(guó)功能材料及其應(yīng)用學(xué)術(shù)會(huì)議論文集（第5分冊(cè)） (pp.130-132).

[40]張智慧, 張國(guó)慶, 米國(guó)發(fā), 李周,   劉仲武   & 田世藩. (1998). 噴射成形高溫合金柱狀坯的過(guò)程控制. (eds.) ’98上海有色合金及特種鑄造國(guó)際會(huì)議論文集 (pp.166-173).

 

       榮譽(yù)獎(jiǎng)勵(lì)：
 
       1998、1999年兩次獲中國(guó)航空工業(yè)總公司科技進(jìn)步二等獎(jiǎng)，2017年獲廣東省科技三等獎(jiǎng)。2005年獲英國(guó)Daniel Doncastor Prize；2008年入選廣東省“千百十工程”學(xué)術(shù)骨干；2011年入選教育部“新世紀(jì)優(yōu)秀人才”。

1、 入選教育部“新世紀(jì)優(yōu)秀人才” 2011年 

2、入選廣東省“千百十工程”學(xué)術(shù)骨干 2008年 

3、入選華南理工大學(xué)“興華人才工程-百人計(jì)劃”“杰出青年教師” 2006年 

4、2006年Journal of Physics D: Applied Physics優(yōu)秀論文 2007年 

5、英國(guó)工程材料和設(shè)計(jì)優(yōu)秀研究獎(jiǎng) Daniel Doncaster Prize in Engineering Materials and Design  謝菲爾德大學(xué)授予 2005年 

6、中英學(xué)者獎(jiǎng)學(xué)金  Award from Sino-British Fellowship Trust 2004年 

7、優(yōu)秀學(xué)生論文資助參會(huì)獎(jiǎng) Student Travel Award for 9th

7、 MMM/Intermag Conference電子與電氣工程學(xué)會(huì) IEEE 2004年 

8、 英國(guó)海外研究獎(jiǎng)學(xué)金  ORS award from Universities UK  2001-2004年 

9、 中國(guó)航空工業(yè)總公司科技進(jìn)步二等獎(jiǎng)“噴射成形高溫合金工藝研究”獲獎(jiǎng)號(hào)：991155 1999年 

10、中國(guó)航空工業(yè)總公司科技進(jìn)步二等獎(jiǎng)“多功能高溫材料噴射霧化沉積裝置的研制“獲獎(jiǎng)號(hào): 981211), 1998年