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專家信息：

彭立明，男，1972年6月出生，重慶人，博士�，F(xiàn)任上海交通大學材料科學與工程學院輕合金精密成型工程中心副主任，教授、碩士生導師。

教育及工作經(jīng)歷：

1990.09-1994.09 上海交通大學材料工程系獲得學士學位

1994.09-1997.03 西北工業(yè)大學材料學院獲得碩士學位

1997.03-2000.10 上海大學獲得工學博士

2000.10-2002.10 上海交通大學材料科學與工程博士后流動站作研究工作

2002.11-2004.08 上海交通大學材料學院講師

2004.09-2010.09 上海交通大學材料學院副教授（其中2005.01-2005.06，于澳大利亞著名大學---monash大學做訪問學者；2010.08-2010.10，美國通用汽車公司研發(fā)中心訪問科學家）

2010.10-2016.12上海交通大學材料學院教授

2017.01-2019.06 上海交通大學材料學院長聘教授

2019.07-至今上海交通大學材料學院特聘教授

社會任職：

1．國際材料學會會員美國TMS年會鎂分會組委會成員。

2．中國鑄造標準委員會委員。

3．Elsiver學術期刊特約審稿人教育部學位與研究生教育評估專家。

4．世界鑄造組織非鐵合金委員會委員。

5．中國青年科技工作者協(xié)會第五屆會員。

6．美國TMS年會鎂分會組委會成員。

7．中國鑄造標準委員會委員。

8． Elsiver學術期刊特約審稿人。

9．教育部學位與研究生教育評估專家。

教學情況：

主講課程：

《計算材料工程》（本科生）

《材料加工過程中的傳輸現(xiàn)象》（研究生）

《秘寶尋材-寶藏中的材料科學》（核心通識課）

培養(yǎng)研究生情況：

畢業(yè)博士生數(shù): 5

畢業(yè)碩士生數(shù): 12

科學研究：

研究方向：

主要從事于高性能鎂合金強韌化設計及其電子顯微學研究、鎂合金高溫氧化特性與防護、鎂合金的多場協(xié)同熱處理及其機理、鎂合金的液態(tài)成型技術等方向研究。

1、高性能輕合金材料設計與精密成型技術

2、鎂基氫致變色功能薄膜材料與器件

承擔科研項目情況：

先后承擔或參與了安全973、863重點、國際合作重點等二十余項重要研究項目或課題。

1．國家自然科學基金項目：含S氣氛對鎂熔體的阻燃性及其環(huán)境協(xié)調性研究，2002。

2．上海市青年科技啟明星計劃項目：摩擦攪拌制備鎂稀土變形合金的組織細化與強韌化機制研究，2010。

3．國家”863”計劃創(chuàng)新團隊項目：鎂合金發(fā)動機關鍵材料與系統(tǒng)集成，2009-2011。

4．國家自然基金面上項目：Mg-RE-Zn系鎂合金析出相與LPSO結構及其強韌化機制研究，2010-2012)。

5．美國通用汽車公司與上海交通大學合作項目：Development of Magnesium Alloy Engine Blocks (phase II)，2010-2011。

6．美國波音公司與上海交通大學合作項目：Development and Manufacturing of High Strength and corrosion resistant cast Mg alloys and parts，2010-2011。

7．美國通用汽車公司與上海交通大學合作項目：Alloy and Process Development for Cast Magnesium Wheels，2009-2010。

8．上海市自然科學基金重點項目：結構-功能一體化鎂基復合材料的基礎研究，2009-2011。

9．西北有色研究院與上海交通大學合作項目：光學儀器阻尼減振材料，2007-2009。

研究情況：

長期從事高強度鑄造輕合金（鎂合金/鋁合金）材料研發(fā)與液態(tài)精密成型及特種加工技術研究，近年來還開拓了氫致變色鎂基功能薄膜材料與器件、鎂合金增材制造技術等新興學科方向，并取得較為顯著的研究進展：1) 在高性能鎂-稀土合金的設計、強化機制與組織調控研究取得突破,探明多種鎂稀土合金中的析出序列與相變模型以及強韌化機制，為新型高性能鎂合金設計打下理論基礎；2) 針對鎂室溫滑移系少塑性差的問題，發(fā)現(xiàn)了鎂合金中微量元素促進室溫非基面滑移開動的機制，創(chuàng)制了高強高延性鎂合金JDM1（強度超過300MPa，延伸率達到35%以上）；針對傳統(tǒng)鎂合金強度低的問題，探明鎂-重稀土合金的析出序列并發(fā)現(xiàn)了新的有效強化相β1，從而創(chuàng)制了超高強度耐高溫鎂-稀土合金JDM2（將其強度提升至500MPa，使用溫度提升至300℃）；3) 發(fā)明了雙聯(lián)式精密低壓鑄造、發(fā)動機支架擠壓鑄造等多種輕合金精密液態(tài)成型技術，并將新材料與工藝相結合，解決了20種復雜高性能要求的汽車與國防關重件的輕量化制造難題; 4）在世界上首次實現(xiàn)了高強度鎂稀土合金粉體有氣霧化制備和鎂稀土合金樣品的增材制造；5）設計并制備出了可見光透射率調節(jié)區(qū)間在達65%的(CF)n/Pd/Mg-Nb2O5氫致變色薄膜。

高度重視產(chǎn)-學-研結合與科技成果轉化，已將10余項鎂、鋁合金科研成果或專利在多家企業(yè)進行工程化或產(chǎn)業(yè)化，為企業(yè)創(chuàng)造經(jīng)濟效益超過1億元。廣泛開展國際科研合作，形成了良好的國際影響力，參與籌建了“上海交大-通用汽車先進材料制造聯(lián)合實驗室（SJTU-GM AMP CRL）”，該研究室是美國通用汽車公司在亞洲建立的唯一的聯(lián)合實驗室，并受邀擔任了該實驗室“鎂合金領域”負責人。獲得國家及省部級科研獎勵12 項,發(fā)表SCI論文230篇(Scopus總他引超3600次，H index=32)，獲得授權專利35項。

制定標準：

1 鑄造鎂合金現(xiàn)行 GB/T 1177-2018 2018-08-15 國家標準

2 鎂合金鑄件現(xiàn)行 GB/T 13820-2018 2018-08-15 國家標準

3 鑄造有色金屬及其合金牌號表示方法現(xiàn)行 GB/T 8063-2017 2018-02-27 國家標準

4 變形鎂及鎂合金牌號和化學成分現(xiàn)行 GB/T 5153-2016 2017-08-31 國家標準

5 鎂合金加工產(chǎn)品包裝、標志、運輸、貯存現(xiàn)行 GB/T 32792-2016 2017-08-31 國家標準

6 鑄造鎂合金錠現(xiàn)行 GB/T 19078-2016 2017-08-31 國家標準

7 汽車車輪用鑄造鎂合金現(xiàn)行 GB/T 26654-2011 2012-04-05 國家標準

8 鎂合金汽車車輪鑄件現(xiàn)行 GB/T 26649-2011 2012-04-05 國家標準

9 摩托車和電動自行車用鎂合金車輪鑄件現(xiàn)行 GB/T 26650-2011 2012-04-05 國家標準

科研成果：

1． A.A.Luo,A.K. Sachdev, P.H Fu, L.M.Peng, H.Y,Jiang,et al. Low pressure die casting of AZ91D and AM50 Magnesium alloys. CastExpo'08 and the 112th Metalcasting Congress by AFS and NADCA, May 17-20, 2008, Atlanta, GA, USA, AFS Best Paper Award.

2．耐熱鎂合金及其在汽車上的應用研究丁文江; 盧晨; 袁廣銀; 王渠東; 吳國華; 曾小勤; 郭興伍; 彭立明; 蔣海燕; 董杰【科技成果】上海交通大學 2005-12-28

3．鎂稀土類合金精煉熔劑及其生產(chǎn)方法吳國華; 丁文江; 高洪濤; 彭立明; 曾小勤【科技成果】上海交通大學 2005-12-28

4．電站用干式絕緣容器制造技術的開發(fā)及產(chǎn)業(yè)化丁文江; 翟春泉; 蔣海燕; 曾小勤; 徐小平; 盧晨; 劉六法; 花傳平; 郭興伍; 朱燕萍; 曾鍵; 姚真裔; 盧大; 王渠東; 袁廣銀; 彭立明; 吳國華; 于彥東; 衛(wèi)中山; 董杰【科技成果】上海交通大學 2004-12-04

5．轎車用鎂合金輪轂精密成型技術開發(fā) 丁文江; 曾小勤; 彭立明; 盧晨; 翟春泉; 徐小平; 郭興伍; 吳國華; 王渠東; 花傳平; 朱燕萍; 盧大; 蔣海燕; 袁廣銀; 黃曉鋒【科技成果】上海交通大學 2002-10-29

6．綠色無污染鋁合金復合精變處理工藝毛協(xié)民; 唐多光; 程其明; 王海江; 李金輝; 王豐浩; 彭立明; 邵敏華; 侯旭【科技成果】上海大學 2001-01-01

發(fā)明專利：

代表性授權專利：

[1]彭立明、付彭懷、蔣海燕等，多組分氣體混合裝置，ZL200610027174.2

[2]丁文江、彭立明、付彭懷等，含稀土高強度鑄造鎂合金及其制備工藝，ZL200510030457.8

[3] 何上明、曾小勤、彭立明等，高強度耐熱鎂合金及其制備方法，ZL200510025251.6

[4] 張亮、彭立明、王迎新，丁文江、匡建中，鎂合金金屬型低壓鑄造涂料及其制備方法，ZL200810202635.4

[5] 彭立明、王迎新、蔣海燕、丁文江，具有自動氣體保護裝置的鎂合金金屬型低壓鑄造型腔，ZL200910049409.1

[6] 吳國華、丁文江、彭立明，鎂熔體凈化裝置，ZL200910048993.9

[7] 王迎新、彭立明、付彭懷、蔣海燕、丁文江，鎂合金熔煉的鋯復合餅及其制備方法，ZL201010151425.4

[8] 王迎新、彭立明、蔣海燕、丁文江，用于高速擠壓的變形鎂合金及其制備方法，ZL201010152389.3

[9] 胡斌、彭立明、曾小勤，基于鎂基合金的摩托車發(fā)動機缸套的制備方法，ZL201010292160.X

[10] 彭立明、鄭飛燕、付彭懷、沈淵明，利用植物灰分制備Mg/Mg2Si 復合材料的方法，ZL201310146299.7

[11] 孫明、彭立明、胡小禹、付彭懷、彭穎紅、丁文江，采用釹鐵硼磁鐵廢料制備鎂釹中間合金的方法，ZL201310577466.3

[12] 吳玉娟、彭立明、張宇、容偉、付彭懷，丁文江，一種含xx和xx的鑄造鎂合金及其制備方法，ZL201418000087.3

[13] 彭立明、王成琪、鄭飛燕、李學文，兩片式輪轂的連接方法，ZL201410116433.3

[14] 吳玉娟、都亞仙、彭立明、孫明、鄭飛燕、陳娟、曾小勤、丁文江，具有LPSO結構的鑄態(tài)Mg-Gd-Zn-(Zr)合金制備方法，ZL201410668925.3

[15] 陳娟、廖海光、韓靖宇、彭立明、鄭飛燕、吳玉娟、劉越、易轟、丁文江，一種原位制備含硼鎂基復合材料的方法，ZL201610693513.4

發(fā)明公開：

[1]付彭懷,王迎新,林金銘,唐偉能,鄭亞,王科,彭立明,胡勇,劉保良,丁文江. 鎂合金輪轂旋壓毛坯重力鑄造成型方法[P]. 上海市：CN116020979A,2023-04-28.

[2]彭立明,蘭喬,汪星辰,劉保良,孫啟才,袁靈洋. 預測鑄態(tài)鋁硅合金力學性能的方法及系統(tǒng)[P]. 上海市：CN115985416A,2023-04-18.

[3]郭興伍,高晨璟,聶樂文,吳軒,彭立明. 一種在WO-3薄膜上負載貴金屬催化劑納米顆粒的方法[P]. 上海市：CN115672320A,2023-02-03.

[4]付彭懷,王嘉誠,林金銘,胡國琦,鮑明東,袁靈洋,彭立明. 一種高強韌壓鑄鎂合金及其制備方法[P]. 上海市：CN115652159A,2023-01-31.

[5]吳玉娟,陳凱,彭立明,武千業(yè),劉子翼,鄧慶琛,宿寧,常治宇,丁晨陽,丁文江. 基于高通量混粉-送粉-打印增材制造的合金制備方法[P]. 上海市：CN115090897A,2022-09-23.

[6]付彭懷,王迎新,林金銘,彭立明,丁文江. 一種可快速高溫固溶處理的高強韌鑄造鎂稀土合金及其制備方法[P]. 上海市：CN114686711A,2022-07-01.

[7]付彭懷,丁之光,劉兵銀,朱榮玉,彭立明,丁文江. 一種儲氫鎂合金及其制備方法[P]. 上海市：CN114645168A,2022-06-21.

[8]付彭懷,林金銘,王迎新,彭立明,丁文江. 一種高強韌鑄造鎂稀土合金及其制備方法[P]. 上海市：CN114645169A,2022-06-21.

[9]付彭懷,王迎新,鄭亞,林金銘,唐偉能,王科,胡勇,彭立明,祁衛(wèi)東,丁文江. 一種可快速高溫固溶處理的鑄造鎂稀土合金及其制備方法[P]. 上海市：CN114645170A,2022-06-21.

[10]付彭懷,王迎新,彭立明,林金銘,丁文江. 一種高強韌鑄造鎂稀土合金及其制備方法[P]. 上海市：CN114635068A,2022-06-17.

[11]彭立明,袁靈洋,楊磊,肖剛,楊超. 一種非熱處理強化高強高韌壓鑄鋁硅合金及其制備方法[P]. 上海市：CN114411020A,2022-04-29.

[12]付彭懷,徐雯鈺,朱榮玉,肖剛,彭立明,丁文江. 一種儲氫鎂合金及其制備方法[P]. 上海市：CN113789462A,2021-12-14.

[13]丁之光,付彭懷,朱榮玉,肖剛,彭立明,丁文江. 一種儲氫鎂合金的制備方法[P]. 上海市：CN113695536A,2021-11-26.

[14]彭立明. 一種防水無紡布材料及其生產(chǎn)工藝[P]. 福建省：CN113638129A,2021-11-12.

[15]付彭懷,劉保良,胡國琦,鮑明東,趙斌元,鄭飛燕,彭立明,丁文江. 一種鋁/鎂合金真空壓鑄成型方法及裝置[P]. 上海市：CN113523223A,2021-10-22.

[16]吳玉娟,武千業(yè),鄧慶琛,薛艷婷,陳凱,常治宇,宿寧,彭立明,丁文江. 選區(qū)激光熔化技術制備高模量高強度鎂基復合材料的方法[P]. 上海市：CN113528877A,2021-10-22.

[17]吳玉娟,薛艷婷,鄧慶琛,武千業(yè),陳凱,常治宇,宿寧,彭立明,丁文江. 一種含稀土耐熱高強鎂合金材料及其制備方法[P]. 上海市：CN113528916A,2021-10-22.

[18]陳娟,金啟豪,彭立明,閻熙,李子言,吳玉娟,付彭懷. 一種金屬異種材料攪拌摩擦焊接頭及制備和提升接頭強度的方法[P]. 上海市：CN113500285A,2021-10-15.

[19]徐雯鈺,付彭懷,劉大志,陳娟,吳玉娟,彭立明,丁文江. 提高激光選區(qū)熔化增材制造鎂/鎂合金零件致密度的方法[P]. 上海市：CN113414406A,2021-09-21.

[20]方浩瀾,陳娟,彭立明,劉峻嘉,申煒,王廷炎,陳炎,崔元勛,董澤麟,管穎添,鄧南香,丁文江. 氟碳/鈀/鎂-鈧氫致變色薄膜及其制備方法[P]. 上海市：CN113215544A,2021-08-06.

[21]彭壽,王偉,陳娟,周文彩,齊帥,于浩,曾紅杰,彭立明,鄧南香,陳炎. 一種太陽能電池板的制備方法[P]. 上海市：CN112951944A,2021-06-11.

[22]彭壽,王偉,陳娟,周文彩,齊帥,于浩,曾紅杰,彭立明,鄧南香,陳炎. 一種太陽能電池板及其用途[P]. 上海市：CN112864263A,2021-05-28.

[23]彭立明,蘭喬,劉保良,常治宇,袁靈洋,吳玉娟,潘澤明. 一種外露加熱式升液管[P]. 上海市：CN112743063A,2021-05-04.

[24]彭立明,蘭喬,劉保良,常治宇,袁靈洋,吳玉娟. 一種用于翻轉定向冷卻鑄造成型裝置的模具系統(tǒng)[P]. 上海市：CN112743065A,2021-05-04.

[25]陳娟,陳炎,彭立明,鄧南香,吳玉娟,董澤麟,王廷炎,丁文江. 碳氟/鈀/鎂-釕氣致調光薄膜及其制備方法[P]. 上海市：CN112596279A,2021-04-02.

[26]吳玉娟,常治宇,彭立明,劉保良,蘭喬,宿寧,鄧慶琛,薛曉瑜,武千葉,薛艷婷,丁文江. 硼酸鋁晶須增強稀土鎂合金復合材料及其制備方法[P]. 上海市：CN112410688A,2021-02-26.

[27]鄭飛燕,彭立明,付彭懷,胡志恒,李波濤,徐海舟. 提高壓鑄件表面局部硬度和耐磨性的方法及輕合金壓鑄件[P]. 上海市：CN111996535A,2020-11-27.

[28]朱永,劉曉春,黃巧生,彭立明,鄭飛燕,韓盼文. 工件落座氣檢系統(tǒng)有效性檢驗系統(tǒng)和方法[P]. 上海市：CN111854653A,2020-10-30.

[29]鄭飛燕,方浩瀾,彭立明,劉保良,付彭懷,吳玉娟,陳娟. 鑄件缺陷修復裝置與方法[P]. 上海市：CN111347155A,2020-06-30.

[30]陳娟,閻熙,彭立明,金啟豪,吳玉娟,袁靈洋. 一種基于鋁中間層的鎂/鋼異種材料攪拌摩擦焊搭接方法[P]. 上海市：CN111299803A,2020-06-19.

[31]范鵬,付彭懷,鄭飛燕,彭立明. 一種鋁/鎂合金半固態(tài)漿料原位制備與成型方法及裝置[P]. 上海市：CN111069566A,2020-04-28.

[32]郭興伍,葉恩,聶樂文,高晨璟,彭立明. 在鎂合金表面用氬離子刻蝕制備高耐腐蝕Al薄膜的方法[P]. 上海市：CN111020505A,2020-04-17.

[33]付彭懷,倪航,王南清,王飛,蔣強,王迎新,彭立明,丁文江. 一種鑄造過程中鎂合金熔體的保護方法[P]. 上海市：CN110860675A,2020-03-06.

[34]吳玉娟,鄧慶琛,彭立明,羅遠航,宿寧,常治宇,薛曉瑜. 選區(qū)激光熔化增材制造技術制備高強韌鎂稀土合金的方法[P]. 上海市：CN110681869A,2020-01-14.

[35]郭興伍,高晨璟,聶樂文,彭立明. 在ITO玻璃表面制備納米結構WO_3薄膜的方法[P]. 上海市：CN110510890A,2019-11-29.

[36]王南清,付彭懷,廖海光,陳娟,彭立明. 基于激光選區(qū)熔化(SLM)增材制造技術的多孔鎂稀土合金植入物的制備方法[P]. 上海市：CN110394447A,2019-11-01.

[37]付彭懷,彭立明,王科,王迎新,丁文江. 一種適合鎂及鎂合金熔煉與鑄造的方法[P]. 上海市：CN110373559A,2019-10-25.

[38]彭立明,蘭喬,劉保良,袁靈洋,吳玉娟,付彭懷. 一種翻轉定向冷卻鑄造成型系統(tǒng)及其使用方法[P]. 上海市：CN110202120A,2019-09-06.

[39]彭立明,蘭喬,劉保良,袁靈洋,吳玉娟,付彭懷. 利用雙冷卻條件獲得細小二次枝晶臂間距的合金鑄造方法[P]. 上海市：CN110202121A,2019-09-06.

[40]王科,付彭懷,彭立明,王迎新. 一種鎂、鋁合金鑄件凝固過程中熱裂紋的預測方法[P]. 上海市：CN110111861A,2019-08-09.

[41]彭立明,袁靈洋,鄭飛燕,陸珂?zhèn)?周定賢,陳海平,楊小亮. 一種非熱處理強化高強高韌壓鑄鋁鎂銅合金及其制備方法[P]. 上海市：CN110079714A,2019-08-02.

[42]彭立明,韓盼文,袁靈洋,鄭飛燕,徐宏,胡志恒,應偉勇. 一種高強韌壓鑄鋁合金及其制備方法[P]. 上海市：CN109881056A,2019-06-14.

[43]陳娟,鄧南香,彭立明,劉越,吳玉娟,丁文江. 一種鎂基合金調制薄膜及其制備方法和應用[P]. 上海市：CN109881169A,2019-06-14.

[44]宋書清,阮博經(jīng),高書娟,李永紅,馬黎波,陳娟,彭立明,丁文江,洪仁杰. 一種亞微米級NdFeB合金粉的生產(chǎn)方法[P]. 江蘇�。篊N109692968A,2019-04-30.

[45]宋書清,陳娟,高書娟,阮博經(jīng),馬黎波,李永紅,蔡俊,丁文江,彭立明. 一種利用蒸發(fā)-冷凝法和還原法生產(chǎn)鎳基超細高溫合金粉的方法[P]. 江蘇省：CN109648094A,2019-04-19.

[46]付彭懷,周逸源,彭立明,王迎新,易磊,丁文江. 一種含鈰稀土鎂合金及其熱處理方法[P]. 上海市：CN109295369A,2019-02-01.

[47]陳娟,劉越,彭立明,鄧南香,吳玉娟,韓靖宇,閻熙,丁文江. 氟碳/鈀/鎂-五氧化二鈮氣致調光薄膜及其制備方法[P]. 上海市：CN109136841A,2019-01-04.

[48]彭立明. 一種制鞋用自動貼壓底機[P]. 湖南：CN109043741A,2018-12-21.

[49]吳玉娟,羅遠航,彭立明,宿寧,陳娟,鄭飛燕,趙倩,衡相文,丁文江. 放電等離子燒結調控含細小LPSO結構的高強韌鎂合金制備方法[P]. 上海市：CN108950331A,2018-12-07.

[50]彭立明,袁靈洋,劉保良,王渠東,丁文江. 非熱處理強化高強高韌壓鑄鋁鎂硅合金及其制備方法[P]. 上海：CN108754256A,2018-11-06.

[51]錢圣男,董闖,吳玉娟,鄒建新,曾小勤,彭立明,谷立東,衡相文. 一種源自溶質均勻模型的高強高塑性Mg-Gd-Y-Zr鑄造合金及其制備方法[P]. 遼寧：CN108456815A,2018-08-28.

[52]鄭飛燕,李健,彭立明,李娟. 一種采用攪拌摩擦加工提高鎂鋯晶粒細化劑細化效率的方法[P]. 江蘇：CN108359822A,2018-08-03.

[53]付彭懷,王丹,周逸源,彭立明. 降低鎂稀土合金高溫固溶處理中晶粒顯著粗化的方法[P]. 上海：CN108265187A,2018-07-10.

[54]彭立明,李娟,鄭飛燕,李健. 一種鎂合金壓鑄余料廢料的在線回收處理裝置及處理工藝[P]. 江蘇：CN108193053A,2018-06-22.

[55]劉希琴,李娟,李健,劉子利,朱偉平,彭立明. 一種大型復雜腔體類壓鑄件端面的加工夾具[P]. 江蘇：CN107891298A,2018-04-10.

[56]劉子利,李健,劉希琴,李娟,朱偉平,彭立明. 一種壓鑄模的滑塊頂針機構[P]. 江蘇：CN107838397A,2018-03-27.

[57]鄭飛燕,彭立明,林旺騰,譚帥,陳娟,吳玉娟. 防止電偶腐蝕的螺孔結構的制備方法及其結構[P]. 上海：CN107775182A,2018-03-09.

[58]吳玉娟,衡相文,彭立明,容偉,趙倩,陳娟,丁文江. 一種磁場鑄造調控含LPSO結構高強韌鎂合金制備方法[P]. 上海：CN107460386A,2017-12-12.

[59]吳玉娟,趙倩,彭立明,劉保良,王科,袁靈洋,丁文江. 適用于非均勻壁厚復雜鑄件的多點定向擠壓鑄造方法[P]. 上海：CN107350452A,2017-11-17.

[60]陳娟,韓靖宇,彭立明,吳玉娟,鄭飛燕,丁文江. 鎂合金中含細小LPSO結構的細晶復合組織的制備方法[P]. 上海：CN107312988A,2017-11-03.

[61]付彭懷,王迎新,王丹,彭立明,丁文江. 砂型鑄造稀土鎂合金及其制備方法[P]. 上海：CN107201472A,2017-09-26.

[62]陳娟,劉越,彭立明,韓靖宇,鄧南香,丁文江. 鈀/鎂#二氧化鈦氣致調光薄膜及其制備[P]. 上海：CN107190238A,2017-09-22.

[63]陳娟,廖海光,韓靖宇,彭立明,鄭飛燕,吳玉娟,劉越,丁文江. 一種原位制備含硼鎂基復合材料的方法[P]. 上海：CN106282637A,2017-01-04.

[64]陳娟,劉越,韓靖宇,彭立明,丁文江. 氫致變色功能薄膜的原位光譜通氣測試裝置[P]. 上海：CN106248596A,2016-12-21.

[65]吳玉娟,程曉偉,彭立明,韓靖宇,陳娟,劉保良,丁文江. 鑄造鎂合金的真空吸鑄裝置[P]. 上海：CN106166607A,2016-11-30.

[66]吳玉娟,容偉,王英,張宇,彭立明,陳娟,丁文江. 高強度高Gd含量的變形鎂合金及其制備方法[P]. 上海：CN106148792A,2016-11-23.

[67]蔣堯夫,丁文江,彭立明,付彭懷,朱永奎. 一種水冷內(nèi)燃機缸蓋以及裝有這種缸蓋的水冷內(nèi)燃機[P]. 上海：CN105888873A,2016-08-24.

[68]蔣堯夫,丁文江,彭立明,付彭懷,朱永奎. 摩擦焊接結構組件、水冷內(nèi)燃機的缸蓋、水冷內(nèi)燃機以及裝有水冷內(nèi)燃機的機械裝置[P]. 上海：CN105517749A,2016-04-20.

[69]吳玉娟,容偉,彭立明,陳娟,張宇,丁文江. 一種含Zn和重稀土Gd的高強度鑄造鎂合金及制備方法[P]. 上海：CN105483485A,2016-04-13.

[70]鄭飛燕,陳娟,葉兵,朱永奎,彭立明. 電機轉子的攪拌摩擦焊接裝置及方法[P]. 上海：CN105171227A,2015-12-23.

[71]蔣堯夫,丁文江,彭立明,付彭懷,朱永奎,姚真裔. 內(nèi)燃機缸蓋、內(nèi)燃機及裝有這種內(nèi)燃機的機械裝置[P]. 上海：CN104863743A,2015-08-26.

[72]蔣堯夫,丁文江,付彭懷,彭立明,朱永奎,郭興伍. 一種水冷內(nèi)燃機缸蓋以及裝有這種缸蓋的水冷內(nèi)燃機[P]. 上海：CN104727967A,2015-06-24.

[73]張超,戴柏凡,王祎鋮,李月剛,王軍,曾一文,付彭懷,彭立明. 環(huán)保型鎂合金熔煉保護氣及其制備方法和應用[P]. 江蘇：CN104498744A,2015-04-08.

[74]吳玉娟,都亞仙,彭立明,孫明,鄭飛燕,陳娟,曾小勤,丁文江. 具有LPSO結構的鑄態(tài)Mg-Gd-Zn(-Zr)合金的制備方法[P]. 上海：CN104372225A,2015-02-25.

[75]吳玉娟,蕭柱華,彭立明,鄭飛燕,易轟,容偉,丁文江. 含硅、鋅和Gd(-Y)的耐熱稀土鎂合金及其制備方法[P]. 上海：CN104195396A,2014-12-10.

[76]錢勝前,胡小禹,彭立明,付彭懷,丁文江. 利用中頻磁場實現(xiàn)的鎂稀土合金的快速固溶處理方法[P]. 上海：CN103911570A,2014-07-09.

[77]彭立明,王成琪,鄭飛燕,李學文. 兩片式輪轂的連接方法[P]. 上海：CN103909342A,2014-07-09.

[78]孫明,彭立明,胡小禹,付彭懷,彭穎紅,丁文江. 采用釹鐵硼磁鐵廢料制備鎂釹中間合金的方法[P]. 上海：CN103667751A,2014-03-26.

[79]肖旅,李寶輝,彭立明,鄒文兵,付彭懷,李中權. 稀土鎂合金熔煉及純凈化的方法[P]. 上海：CN103667755A,2014-03-26.

[80]陳麗平,王迎新,彭立明. 平板鎂合金砂型鑄造中砂型溫度場的測量方法[P]. 上海：CN103542953A,2014-01-29.

[81]付彭懷,高菲,彭立明,王迎新,蔣海燕,丁文江. 高強度阻尼鎂合金[P]. 上海：CN103484742A,2014-01-01.

[82]彭叔森,烏學東,曾志翔,彭立明,曹慧軍,吳斌. 鎂合金基體表面防腐用有機硅溶膠-凝膠涂層的制備方法[P]. 浙江：CN103254762A,2013-08-21.

[83]彭立明,鄭飛燕,付彭懷,吳玉娟,沈淵明. 利用植物灰分制備Mg/Mg2Si復合材料的方法[P]. 上海：CN103243229A,2013-08-14.

[84]彭立明,鄭飛燕,吳玉娟,付彭懷,王渠東,丁懷新. 發(fā)動機活塞局部表面強化的工藝方法[P]. 上海：CN102717243A,2012-10-10.

[85]胡斌,彭立明,曾小勤. 基于鎂基合金的摩托車發(fā)動機缸套的制造方法[P]. 上海：CN101934365A,2011-01-05.

[86]王迎新,彭立明,蔣海燕,付彭懷,丁文江. 鎂合金砂型鑄造用樹脂自硬砂及其制備方法[P]. 上海：CN101804443A,2010-08-18.

[87]王迎新,彭立明,蔣海燕,丁文江. 用于高速擠壓的變形鎂合金及其制備方法[P]. 上海：CN101805866A,2010-08-18.

[88]王迎新,彭立明,蔣海燕,吳國華,丁文江. 雙聯(lián)式鎂合金連續(xù)鑄造裝置[P]. 上海：CN101797637A,2010-08-11.

[89]王迎新,彭立明,付彭懷,蔣海燕,丁文江. 鎂合金熔煉的鋯復合餅及其制備方法[P]. 上海：CN101798635A,2010-08-11.

[90]曾小勤,丁文江,常建衛(wèi),彭立明,林凌,郭志剛. 基于金屬氣相的多元納米氫化物顆粒制備方法及其反應裝置[P]. 上海：CN101767773A,2010-07-07.

[91]張亮,王迎新,彭立明,丁文江. 鎂合金金屬型鑄造涂料及其制備方法[P]. 上海：CN101658899,2010-03-03.

[92]曾小勤,林凌,丁文江,彭立明. 鎂液凈化溫度可調節(jié)輸送坩堝[P]. 上海：CN101603777,2009-12-16.

[93]彭立明,馬嵐,靳麗,董杰,付彭懷,王鋒華,丁文江,鄭興偉. 含稀土變形鎂合金的塑性成型方法[P]. 上海：CN101586223,2009-11-25.

[94]彭立明,王迎新,蔣海燕,丁文江. 具有自動氣體保護裝置的鎂合金金屬型低壓鑄造型腔[P]. 上海：CN101537481,2009-09-23.

[95]吳國華,丁文江,彭立明. 鎂熔體凈化裝置[P]. 上海：CN101532092,2009-09-16.

[96]王迎新,彭立明,張亮,丁文江. 鎂合金樹脂砂砂型鑄造用阻燃劑及其應用[P]. 上海：CN101502867,2009-08-12.

[97]張亮,彭立明,王迎新,丁文江,匡建中. 鎂合金金屬型低壓鑄造涂料及其制備方法[P]. 上海：CN101391281,2009-03-25.

[98]張亮,彭立明,王迎新,丁文江,陳廣森. 鎂合金低壓鑄造升液管涂料及其制備方法[P]. 上海：CN101391282,2009-03-25.

[99]陳廣森,王迎新,吳國華,彭立明,丁文江. 鎂合金陶瓷型精密鑄造方法[P]. 上海：CN101181735,2008-05-21.

[100]林金保,王渠東,彭立明. 泡沫鎂的熔體發(fā)泡制備方法[P]. 上海：CN101135015,2008-03-05.

[101]杜林,彭立明,章禎彥,馬嵐. Mg-Zn-Zr變形鎂合金制備方法[P]. 上海：CN101121979,2008-02-13.

[102]章楨彥,彭立明,丁文江,曾小勤. 含稀土鑄造鎂合金及其制備方法[P]. 上海：CN1962914,2007-05-16.

[103]劉六法,丁懷新,彭立明,王迎新. 鋁合金汽車發(fā)動機支架的擠壓鑄造制備方法[P]. 上海：CN1951605,2007-04-25.

[104]董杰,曾小勤,彭立明,張平,丁文江,楊建新,顏文輝,王樹琪. 鎂合金潛流式水平連鑄機[P]. 上海：CN1943911,2007-04-11.

[105]彭立明,曾小勤,楊艷玲,丁文江,劉六法,丁懷新. 鎂合金汽車發(fā)動機支架的擠壓鑄造制備方法[P]. 上海：CN1887480,2007-01-03.

[106]彭立明,付彭懷,蔣海燕,曾小勤,翟春泉,丁文江. 多組分氣體混合裝置[P]. 上海：CN1883783,2006-12-27.

[107]丁文江,付彭懷,彭立明,蔣海燕,曾小勤,翟春泉. 含稀土高強度鑄造鎂合金及其制備方法[P]. 上海：CN1752251,2006-03-29.

[108]何上明,曾小勤,彭立明,丁文江. 高強度耐熱鎂合金及其制備方法[P]. 上海：CN1676646,2005-10-05.

[109]彭立明,曾一文,曾小勤,丁文江,毛協(xié)民. 采用1,1-二氟乙烷為保護氣氛的鎂合金熔煉方法[P]. 上海：CN1587424,2005-03-02.

[110]彭立明,曾一文,曾小勤,丁文江,蔣海燕. 采用二氟甲烷為保護氣氛的鎂合金熔煉方法[P]. 上海：CN1587425,2005-03-02.

[111]彭立明,毛協(xié)民,毛協(xié)國,解洪湛,徐華萍. 一種熱型連鑄凝固界面的檢測與計算機控制系統(tǒng)[P]. 上海：CN1559724,2005-01-05.

[112]吳國華,彭立明,曾小勤,丁文江. 鎂合金熔煉爐[P]. 上海：CN1390963,2003-01-15.

[113]吳國華,曾小勤,盧晨,彭立明. 鎂合金廢舊料再生工藝[P]. 上海：CN1390967,2003-01-15.

[114]彭立明,曾小勤,丁文江,盧晨,翟春泉. 鎂合金專用水平連鑄機[P]. 上海：CN1317383,2001-10-17.

發(fā)明授權：

[1]付彭懷,徐雯鈺,朱榮玉,肖剛,彭立明,丁文江. 一種儲氫鎂合金及其制備方法[P]. 上海市：CN113789462B,2023-04-07.

[2]彭壽,王偉,陳娟,周文彩,齊帥,于浩,曾紅杰,彭立明,鄧南香,陳炎. 一種太陽能電池板及其用途[P]. 上海市：CN112864263B,2023-01-24.

[3]彭壽,王偉,陳娟,周文彩,齊帥,于浩,曾紅杰,彭立明,鄧南香,陳炎. 一種太陽能電池板的制備方法[P]. 上海市：CN112951944B,2022-11-18.

[4]陳娟,陳炎,彭立明,鄧南香,吳玉娟,董澤麟,王廷炎,丁文江. 碳氟/鈀/鎂-釕氣致調光薄膜及其制備方法[P]. 上海市：CN112596279B,2022-11-11.

[5]方浩瀾,陳娟,彭立明,劉峻嘉,申煒,王廷炎,陳炎,崔元勛,董澤麟,管穎添,鄧南香,丁文江. 氟碳/鈀/鎂-鈧氫致變色薄膜及其制備方法[P]. 上海市：CN113215544B,2022-10-28.

[6]彭立明,袁靈洋,楊磊,肖剛,楊超. 一種非熱處理強化高強高韌壓鑄鋁硅合金[P]. 上海市：CN114411020B,2022-10-14.

[7]吳玉娟,薛艷婷,鄧慶琛,武千業(yè),陳凱,常治宇,宿寧,彭立明,丁文江. 一種含稀土耐熱高強鎂合金材料及其制備方法[P]. 上海市：CN113528916B,2022-08-23.

[8]陳海軍,李中軍,彭立明. 一種室溫下伯胺氧化自偶聯(lián)制備亞胺的方法[P]. 河南�。篊N112028789B,2022-07-22.

[9]吳玉娟,武千業(yè),鄧慶琛,薛艷婷,陳凱,常治宇,宿寧,彭立明,丁文江. 選區(qū)激光熔化技術制備高模量高強度鎂基復合材料的方法[P]. 上海市：CN113528877B,2022-06-28.

[10]丁之光,付彭懷,朱榮玉,肖剛,彭立明,丁文江. 一種儲氫鎂合金的制備方法[P]. 上海市：CN113695536B,2022-05-27.

[11]彭立明,蘭喬,劉保良,常治宇,袁靈洋,吳玉娟,潘澤明. 一種外露加熱式升液管[P]. 上海市：CN112743063B,2022-04-08.

[12]朱永,劉曉春,黃巧生,彭立明,鄭飛燕,韓盼文. 工件落座氣檢系統(tǒng)有效性檢驗系統(tǒng)和方法[P]. 上海市：CN111854653B,2022-03-15.

[13]徐雯鈺,付彭懷,劉大志,陳娟,吳玉娟,彭立明,丁文江. 提高激光選區(qū)熔化增材制造鎂/鎂合金零件致密度的方法[P]. 上海市：CN113414406B,2022-03-11.

[14]吳玉娟,常治宇,彭立明,劉保良,蘭喬,宿寧,鄧慶琛,薛曉瑜,武千葉,薛艷婷,丁文江. 硼酸鋁晶須增強稀土鎂合金復合材料及其制備方法[P]. 上海市：CN112410688B,2022-03-01.

[15]郭興伍,高晨璟,聶樂文,彭立明. 在ITO玻璃表面制備納米結構WO-(3)薄膜的方法[P]. 上海市：CN110510890B,2022-01-11.

[16]王南清,付彭懷,廖海光,陳娟,彭立明. 基于激光選區(qū)熔化(SLM)增材制造技術的多孔鎂稀土合金植入物的制備方法[P]. 上海市：CN110394447B,2021-12-24.

[17]范鵬,付彭懷,鄭飛燕,彭立明. 一種鋁/鎂合金半固態(tài)漿料原位制備與成型方法及裝置[P]. 上海市：CN111069566B,2021-12-17.

[18]吳玉娟,鄧慶琛,彭立明,羅遠航,宿寧,常治宇,薛曉瑜. 選區(qū)激光熔化增材制造技術制備高強韌鎂稀土合金的方法[P]. 上海市：CN110681869B,2021-08-03.

[19]付彭懷,倪航,王南清,王飛,蔣強,王迎新,彭立明,丁文江. 一種鑄造過程中鎂合金熔體的保護方法[P]. 上海市：CN110860675B,2021-04-02.

[20]王科,付彭懷,彭立明,王迎新. 一種鎂、鋁合金鑄件凝固過程中熱裂紋的預測方法[P]. 上海市：CN110111861B,2020-12-22.

[21]彭立明,韓盼文,袁靈洋,鄭飛燕,徐宏,胡志恒,應偉勇. 一種高強韌壓鑄鋁合金及其制備方法[P]. 上海市：CN109881056B,2020-11-06.

[22]彭立明,蘭喬,劉保良,袁靈洋,吳玉娟,付彭懷. 利用雙冷卻條件獲得細小二次枝晶臂間距的合金鑄造方法[P]. 上海市：CN110202121B,2020-08-04.

[23]陳娟,鄧南香,彭立明,劉越,吳玉娟,丁文江. 一種鎂基合金調制薄膜及其制備方法和應用[P]. 上海市：CN109881169B,2020-07-14.

[24]彭立明,袁靈洋,鄭飛燕,陸珂?zhèn)?周定賢,陳海平,楊小亮. 一種非熱處理強化高強高韌壓鑄鋁鎂銅合金及其制備方法[P]. 上海市：CN110079714B,2020-06-12.

[25]鄭飛燕,彭立明,林旺騰,譚帥,陳娟,吳玉娟. 防止電偶腐蝕的螺孔結構的制備方法及其結構[P]. 上海市：CN107775182B,2020-05-22.

[26]付彭懷,王迎新,王丹,彭立明,丁文江. 砂型鑄造稀土鎂合金及其制備方法[P]. 上海市：CN107201472B,2020-04-24.

[27]陳娟,韓靖宇,彭立明,吳玉娟,鄭飛燕,丁文江. 鎂合金中含細小LPSO結構的細晶復合組織的制備方法[P]. 上海市：CN107312988B,2020-04-24.

[28]吳玉娟,趙倩,彭立明,劉保良,王科,袁靈洋,丁文江. 適用于非均勻壁厚復雜鑄件的多點定向擠壓鑄造方法[P]. 上海市：CN107350452B,2020-03-06.

[29]陳娟,劉越,韓靖宇,彭立明,丁文江. 氫致變色功能薄膜的原位光譜通氣測試裝置[P]. 上海市：CN106248596B,2020-01-07.

[30]吳玉娟,衡相文,彭立明,容偉,趙倩,陳娟,丁文江. 一種磁場鑄造調控含LPSO結構高強韌鎂合金制備方法[P]. 上海市：CN107460386B,2020-01-07.

[31]付彭懷,王丹,周逸源,彭立明. 降低鎂稀土合金高溫固溶處理中晶粒顯著粗化的方法[P]. 上海市：CN108265187B,2020-01-07.

[32]鄭飛燕,李健,彭立明,李娟. 一種采用攪拌摩擦加工提高鎂鋯晶粒細化劑細化效率的方法[P]. 江蘇省：CN108359822B,2020-01-03.

[33]彭立明,袁靈洋,劉保良,王渠東,丁文江. 非熱處理強化高強高韌壓鑄鋁鎂硅合金及其制備方法[P]. 上海市：CN108754256B,2019-12-06.

[34]吳玉娟,羅遠航,彭立明,宿寧,陳娟,鄭飛燕,趙倩,衡相文,丁文江. 放電等離子燒結調控含細小LPSO結構高強韌鎂合金制備[P]. 上海市：CN108950331B,2019-12-06.

[35]陳娟,劉越,彭立明,鄧南香,吳玉娟,韓靖宇,閻熙,丁文江. 氟碳/鈀/鎂-五氧化二鈮氣致調光薄膜及其制備方法[P]. 上海市：CN109136841B,2019-11-01.

[36]陳娟,劉越,彭立明,韓靖宇,鄧南香,丁文江. 鈀/鎂-二氧化鈦氣致調光薄膜及其制備[P]. 上海市：CN107190238B,2019-10-22.

[37]吳玉娟,容偉,王英,張宇,彭立明,陳娟,丁文江. 高強度高Gd含量的變形鎂合金及其制備方法[P]. 上海市：CN106148792B,2019-02-22.

[38]陳娟,廖海光,韓靖宇,彭立明,鄭飛燕,吳玉娟,劉越,丁文江. 一種原位制備含硼鎂基復合材料的方法[P]. 上海市：CN106282637B,2018-10-23.

[39]蔣堯夫,丁文江,彭立明,付彭懷,朱永奎. 摩擦焊接結構組件、水冷內(nèi)燃機的缸蓋、水冷內(nèi)燃機以及裝有水冷內(nèi)燃機的機械裝置[P]. 上海市：CN105517749B,2018-01-19.

[40]吳玉娟,容偉,彭立明,陳娟,張宇,丁文江. 一種含Zn和重稀土Gd的高強度鑄造鎂合金及制備方法[P]. 上海市：CN105483485B,2017-10-31.

[41]蘇遠歧,王奇,陳莉,彭立明. 基于隨機森林的多尺度印刷品缺陷檢測方法[P]. 陜西�。篊N104715481B,2017-07-25.

[42]吳玉娟,都亞仙,彭立明,孫明,鄭飛燕,陳娟,曾小勤,丁文江. 具有LPSO結構的鑄態(tài)Mg-Gd-Zn(-Zr)合金的制備方法[P]. 上海市：CN104372225B,2017-02-22.

[43]彭立明,王成琪,鄭飛燕,李學文. 兩片式輪轂的連接方法[P]. 上海市：CN103909342B,2017-01-11.

[44]張超,戴柏凡,王祎鋮,李月剛,王軍,曾一文,付彭懷,彭立明. 環(huán)保型鎂合金熔煉保護氣及其制備方法和應用[P]. 江蘇省：CN104498744B,2016-08-31.

[45]陳麗平,王迎新,彭立明. 平板鎂合金砂型鑄造中砂型溫度場的測量方法[P]. 上海市：CN103542953B,2016-03-02.

[46]孫明,彭立明,胡小禹,付彭懷,彭穎紅,丁文江. 采用釹鐵硼磁鐵廢料制備鎂釹中間合金的方法[P]. 上海市：CN103667751B,2016-01-13.

[47]彭立明,鄭飛燕,付彭懷,吳玉娟,沈淵明. 利用植物灰分制備Mg/Mg-(2)Si復合材料的方法[P]. 上海市：CN103243229B,2015-08-19.

[48]彭叔森,烏學東,曾志翔,彭立明,曹慧軍,吳斌. 鎂合金基體表面防腐用有機硅溶膠-凝膠涂層的制備方法[P]. 浙江�。篊N103254762B,2015-07-01.

[49]胡斌,彭立明,曾小勤. 基于鎂基合金的摩托車發(fā)動機缸套的制造方法[P]. 上海市：CN101934365B,2012-05-30.

[50]王迎新,彭立明,付彭懷,蔣海燕,丁文江. 鎂合金熔煉的鋯復合餅及其制備方法[P]. 上海市：CN101798635B,2012-02-22.

[51]王迎新,彭立明,蔣海燕,丁文江. 用于高速擠壓的變形鎂合金及其制備方法[P]. 上海市：CN101805866B,2011-06-29.

[52]張亮,彭立明,王迎新,丁文江,匡建中. 鎂合金金屬型低壓鑄造涂料及其制備方法[P]. 上海市：CN101391281B,2011-01-26.

[53]張亮,彭立明,王迎新,丁文江,陳廣森. 鎂合金低壓鑄造升液管涂料及其制備方法[P]. 上海市：CN101391282B,2011-01-12.

[54]張亮,王迎新,彭立明,丁文江. 鎂合金金屬型鑄造涂料及其制備方法[P]. 上海市：CN101658899B,2010-12-08.

[55]杜林,彭立明,章禎彥,馬嵐. Mg-Zn-Zr變形鎂合金制備方法[P]. 上海市：CN101121979B,2010-12-01.

[56]彭立明,王迎新,蔣海燕,丁文江. 具有自動氣體保護裝置的鎂合金金屬型低壓鑄造型腔[P]. 上海市：CN101537481B,2010-09-08.

[57]吳國華,丁文江,彭立明. 鎂熔體凈化裝置[P]. 上海市：CN101532092B,2010-08-18.

[58]劉六法,丁懷新,彭立明,王迎新. 鋁合金汽車發(fā)動機支架的擠壓鑄造制備方法[P]. 上海市：CN100423872C,2008-10-08.

[59]何上明,曾小勤,彭立明,丁文江. 高強度耐熱鎂合金的制備方法[P]. 上海市：CN100387743C,2008-05-14.

[60]彭立明,付彭懷,蔣海燕,曾小勤,翟春泉,丁文江. 多組分氣體混合裝置[P]. 上海市：CN100355490C,2007-12-19.

[61]彭立明,曾小勤,楊艷玲,丁文江,劉六法,丁懷新. 鎂合金汽車發(fā)動機支架的擠壓鑄造制備方法[P]. 上海市：CN100349673C,2007-11-21.

[62]丁文江,付彭懷,彭立明,蔣海燕,曾小勤,翟春泉. 含稀土高強度鑄造鎂合金及其制備方法[P]. 上海市：CN100335666C,2007-09-05.

[63]彭立明,毛協(xié)民,毛協(xié)國,解洪湛,徐華萍. 一種熱型連鑄凝固界面的檢測與計算機控制系統(tǒng)[P]. 上海市：CN1241702C,2006-02-15.

[64]吳國華,彭立明,曾小勤,丁文江. 鎂合金熔煉爐[P]. 上海市：CN1186467C,2005-01-26.

[65]吳國華,曾小勤,盧晨,彭立明,丁文江. 鎂合金廢舊料再生工藝[P]. 上海市：CN1177071C,2004-11-24.

[66]彭立明,曾小勤,丁文江,盧晨,翟春泉. 鎂合金專用水平連鑄機[P]. 上海市：CN1132710C,2003-12-31.

實用新型：

[1]彭立明,蘭喬,劉保良,常治宇,袁靈洋,吳玉娟,潘澤明. 用于翻轉定向冷卻鑄造成形裝置的節(jié)能型翻轉動力系統(tǒng)[P]. 上海市：CN214920444U,2021-11-30.

[2]彭立明,蘭喬,劉保良,袁靈洋,吳玉娟,付彭懷. 一種翻轉定向冷卻鑄造成型系統(tǒng)[P]. 上海市：CN210587115U,2020-05-22.

[3]彭立明,李娟,鄭飛燕,李健. 一種鎂合金壓鑄余料廢料的在線回收處理裝置[P]. 江蘇：CN208055430U,2018-11-06.

[4]劉子利,李健,劉希琴,李娟,朱偉平,彭立明. 一種壓鑄模的滑塊頂針機構[P]. 江蘇：CN207592758U,2018-07-10.

[5]劉希琴,李娟,李健,劉子利,朱偉平,彭立明. 一種大型復雜腔體類壓鑄件端面的加工夾具[P]. 江蘇：CN207593324U,2018-07-10.

[6]蔣堯夫,丁文江,彭立明,付彭懷,朱永奎. 電感應加熱焊接結構件、水冷內(nèi)燃機的缸蓋、水冷內(nèi)燃機及裝有水冷內(nèi)燃機的機械裝置[P]. 上海：CN204253203U,2015-04-08.

[7]蔣堯夫,丁文江,彭立明,付彭懷,朱永奎. 摩擦焊接結構件、水冷內(nèi)燃機的缸蓋、水冷內(nèi)燃機以及裝有水冷內(nèi)燃機的機械裝置[P]. 上海：CN203948184U,2014-11-19.

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論文專著：

發(fā)表SCI論文230篇(Scopus總他引超3600次，H index=32)，合著專著1部。

出版專著：

[1]《Semisolid rheoforming of magnesium alloys: A review》，Chang, Zhiyu; Su, Ning; Wu, Yujuan*; Lan, Qiao; Peng, Liming; Ding, Wenjiang，MATERIALS & DESIGN, ELSEVIER SCI LTD, THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND, 108990, 2020-10.

[2]《Research progress on solidification structure of alloys by synchrotron X-ray radiography: A review》Wang, Yongbiao*; Jia, Sensen; Wei, Mingguang; Peng, Liming; Wu, Yujuan; Liu, Xintian。JOURNAL OF MAGNESIUM AND ALLOYS, KEAI PUBLISHING LTD, 16 DONGHUANGCHENGGEN NORTH ST, BEIJING, DONGHENG DISTRICT 100717, PEOPLES R CHINA, 396-413, 2020-06.

[3]《Effects of solid solution treatments on microstructure and mechanical properties of AM60B magnesium alloys with RE addition》，Peng, LM*; Zeng, XQ; Yuan, GY; Ding, WJ，MAGNESIUM ALLOYS 2003, PTS 1 AND 2, TRANS TECH PUBLICATIONS LTD, BRANDRAIN 6, CH-8707 ZURICH-UETIKON, SWITZERLAND, 153-158, 2003.

發(fā)表英文論文：

[1]Chang, Zhiyu; Wang, Xingchen; Wu, Yujuan; Peng, Liming; Ding, Wenjiang.Review on criteria for assessing the processability of semisolid alloys.Materials Letters, 2021, 282: 128835.

[2]Xue, Xiaoyu; Wu, Yujuan; Su, Ning; Heng, Xiangwen; Deng, Qingchen; Chang, Zhiyu; Peng, Liming.High-strength GWZ1031K alloy with gradient structure induced by surface mechanical attrition treatment.Materials Characterization, 2020, 170: 110701.

[3]Chang, Zhiyu; Wu, Yujuan; Heng, Xiangwen; Su, Ning; Zhang, Yu; Yu, Baoyi; Zheng, Li; Shao, Xiaohong; Peng, Liming.Characterization of microstructure and nanoscale phase in Mg-15Gd-1Zn (wt.%) alloy fabricated by rotating magnetic field casting.Materials Characterization, 2020, 170: 110660.

[4]Su, Ning; Deng, Qingchen; Wu, Yujuan; Peng, Liming; Yang, Kun; Chen, Qiang.Deformation-induced dissolution of long-period stacking ordered structures and its re-precipitation in a Mg-Gd-Zn-Mn alloy.Materials Characterization, 2020, 110756.

[5]Wang, Yinchuan; Fu, Penghuai; Wang, Nanqing; Peng, Liming; Kang, Bin; Zeng, Hui*; Yuan, Guangyin*; Ding, Wenjiang.Challenges and Solutions for the Additive Manufacturing of Biodegradable Magnesium Implants.Engineering, 2020, 6(11): 1267-1275.

[6]Zhang, Yu*; Rong, Wei; Wu, Yujuan; Peng, Liming*. Achieving ultra-high strength in Mg-Gd-Ag-Zr wrought alloy via bimodal-grained structure and enhanced precipitation. Journal of Materials Science & Technology, 2020, 54: 160-170.

[7]Chang, Zhiyu; Su, Ning; Wu, Yujuan; Lan, Qiao; Peng, Liming; Ding, Wenjiang.Semisolid rheoforming of magnesium alloys: A review.Materials and Design, 2020, 195: 108990.

[8]Zhang, Yu*; Rong, Wei; Wu, Yujuan*; Peng, Liming.Tuning texture and precipitation using Y/Gd atomic ratio in iso- concentration Mg-Y-Gd-Ag-Zr extruded alloys.Materials Characterization, 2020, 167: 110473.

[9]Wang, Dan; Fu, Penghuai*; Peng, Liming; Wang, Yingxin; Ding, Wenjiang.A study of microstructure, mechanical behavior and strengthen mechanism in the Mg-10Gd-0.2Zn-(Y)-0.4Zr alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2020, 793: 139881.

[10]Su Ning; Wu Yujuan*; Chang Zhiyu; Deng Qingchen; Peng Liming; Yang Kun; Chen Qiang.Selective variant growth of precipitates in an as-extruded Mg-Gd-Zn-Mn alloy.Materials Letters, 2020, 272: 127853.

[11]Su, Ning; Wu, Yujuan*; Zhang, Yu; Cheng, Xiaowei; Peng, Liming; Yang, Kun; Chen, Qiang.Microstructure evolution difference in Mg96.5Gd2.5Zn1 alloys extruded from as-castand solution-treated states.Journal of Materials Processing Technology, 2020, 282: 116666.

[12]Wang, Yongbiao*; Wei, Mingguang; Liu, Xintian; Chen, Cong; Wu, Yujuan; Peng, Liming; Chen, Long-Qing.Phase-field study of the effects of the multi-controlling parameters on columnar dendrite during directional solidification in hexagonal materials.European Physical Journal E, 2020, 43(7): 41.

[13]Deng, Nanxiang; Chen, Juan*; Peng, Li-Ming; Liu, Yue; Chen, Yan; Lai, Tianxing; Ding, Wen-Jiang; Zhu, Hong.Effects of Amorphous and Nanocrystalline Structures on Hydrogen-Induced Optical Performance of Modulated Mg-Gd Films with Various Composition Fluctuations.ACS Applied Materials & Interfaces, 2020, 12(26): 29605-29613.

[14]Su, Ning; Xue, Xiaoyu; Zhou, Hui; Wu, Yujuan*; Deng, Qingchen; Yang, Kun; Chen, Qiang; Chen, Bin; Peng, Liming.Effects of nanoprecipitates and LPSO structure on deformation and fracture behaviour of high-strength Mg-Gd-Y-Zn-Mn alloys.Materials Characterization, 2020, 165: 110396.

[15]Deng, Qingchen; Wu, Yujuan*; Luo, Yuanhang; Su, Ning; Xue, Xiaoyu; Chang, Zhiyu; Wu, Qianye; Xue, Yanting; Peng, Liming.Fabrication of high-strength Mg-Gd-Zn-Zr alloy via selective laser melting.Materials Characterization, 2020, 165: 110377.

[16]Luo, Yuanhang; Wu, Yujuan*; Deng, Qingchen; Zhang, Yu; Chen, Juan; Peng, Liming.Microstructures and mechanical properties of Mg-Gd-Zn-Zr alloys prepared by spark plasma sintering.Journal of Alloys and Compounds, 2020, 820: 153405.

[17]Wang, Yongbiao*; Jia, Sensen; Wei, Mingguang; Peng, Liming; Wu, Yujuan; Ji, Yanzhou; Chen, Long-Qing; Liu, Xintian.Coupling in situ synchrotron X-ray radiography and phase-field simulation to study the effect of low cooling rates on dendrite morphology during directional solidification in Mg-Gd alloys.Journal of Alloys and Compounds, 2020, 815: 152385.

[18]Ghulam Asghar, L.M Peng*,P.H Fu, Lingyang Yuan, Yue Liu. Role of Mg2Si precipitates size in determining the ductility of A357 cast alloy,L.M Peng Mater. & Design, 186 (2020), 108280.

[19]Wang, Dan; Fu, Penghuai*; Peng, Liming; Wang, Yingxin; Ding, Wenjiang.Quench sensitivity characterization of a LPSO-phase containing Mg alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2019, 749: 291-300.

[20]Zhang, Yu*; Rong, Wei; Wu, Yujuan; Peng, Liming*; Nie, Jian-Feng; Birbilis, Nick.A detailed HAADF-STEM study of precipitate evolution in Mg-Gd alloy.Journal of Alloys and Compounds, 2019, 777: 531-543.

[21]Zhou, Yiyuan; Fu, Penghuai*; Peng, Liming; Wang, Dan; Wang, Yingxin; Hu, Bin; Liu, Ming; Sachdev, Anil K.; Ding, Wenjiang.Precipitation modification in cast Mg-1Nd-1Ce-Zr alloy by Zn addition.Journal of Magnesium and Alloys, 2019, 7(1): 113-123.

[22]He, Chao; Wu, Yujuan*; Peng, Liming; Su, Ning; Chen, Qiang; Yuan, Shucheng; Liu, Yongjie; Wang, Qingyuan*.Effect of microstructure on small fatigue crack initiation and early propagation behavior in Mg-10Gd-3Y-0.3Zr alloy.International Journal of Fatigue, 2019, 119: 311-319.

[23]He, Chao; Shao, Xiaohong; Yuan, Shucheng; Peng, Liming*; Wu, Yujuan; Wang, Qingyuan*; Chen, Qiang.Small crack initiation and early propagation in an as-extruded Mg-10Gd-3Y-0.5Zr alloy in high cycle fatigue regime.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2019, 744: 716-723.

[24]Rong, Wei; Zhang, Yu; Wu, Yujuan*; Chen, Yuanli; Sun, Ming; Chen, Juan; Peng, Liming.The role of bimodal-grained structure in strengthening tensile strength and decreasing yield asymmetry of Mg-Gd-Zn-Zr alloys.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2019, 740: 262-273.

[25]Wang, Shuxian; Zhang, Yu*; Peng, Liming*.On the evolution of β' precipitate during creep in a Mg-3.3Y-0.1Zr(at.%) alloy.Materials Characterization, 2019, 147: 414-420.

[26]Pan, Jipeng; Fu, Penghuai; Peng, Liming*; Hu, Bin; Zhang, Haiming; Luo, Alan A..Basal slip dominant fatigue damage behavior in a cast Mg-8Gd-3Y-Zr alloy.International Journal of Fatigue, 2019, 118: 104-116.

[27]Zeng, Ji-Yong; Guo, Xing-Wu*; Guo, Jia-Cheng; Nie, Le-Wen; Gong, Lei-Chao; Peng, Li-Ming; Ding, Wen-Jiang.Preparation of new phytic acid chemical conversion coating with excellent corrosion resistance on magnesium alloys.Surface Technology, 2019, 48(10): 230-237.

[28]Wang, Ke; Fu, Penghuai*; Peng, Liming; Wang, Yingxin; Ding, Wenjiang.A Simplified Hot-Tearing Criterion for Shape Castings Based on Temperature-Field Simulation.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2019, 50A(11): 5271-5280.

[29]Guo, Jiacheng; Guo, Xingwu*; Zeng, Jiyong; Nie, Lewen; Dong, Jie; Peng, Liming; Ding, Wenjiang.Effective strategy for improving infrared emissivity of Zn-Ni porous coating .Applied Surface Science, 2019, 485: 92-100.

[30]Wang, Dan; Fu, Penghuai; Peng, Liming*; Wang, Yingxin; Ding, Wenjiang.Development of high strength sand cast Mg-Gd-Zn alloy by co-precipitation of the prismatic beta' and beta(1) phases.Materials Characterization, 2019, 153: 157-168.

[31]Liu, Yue; Chen, Juan*; Peng, Liming; Deng, Nanxiang; Ding, Wenjiang.Fabrication and optical property improvement of gasochromic switchable mirror based on Pd/Mg-Nb2O5 thin film.International Journal of Hydrogen Energy, 2019, 44(29): 15205-15217.

[32]Yuan, Lingyang; Peng, Liming*; Han, Jingyu; Liu, Baoliang; Wu, Yujuan; Chen, Juan.Effect of Cu addition on microstructures and tensile properties of high pressure die-casting Al-5.5Mg-0.7Mn alloy.Journal of Materials Science & Technology, 2019, 35(6): 1017-1026.

[33]Heng, Xiangwen; Zhang, Yu*; Rong, Wei; Wu, Yujuan; Peng, Liming*.A super high-strength Mg-Gd-Y-Zn-Mn alloy fabricated by hot extrusion and strain aging.Materials and Design, 2019, 169: 107666.

[34]Tang, Tao; Zhou, Guowei; Li, Zihan; Li, Dayong*; Peng, Liming; Peng, Yinghong*; Wu, Peidong; Wang, Huamiao; Lee, Myoung-Gyu.A polycrystal plasticity based thermo-mechanical-dynamic recrystallization coupled modeling method and its application to light weight alloys.International Journal of Plasticity, 2019, 116: 159-191.

[35]Pan, Jipeng; Peng, Liming*; Fu, Penghuai; Zhang, Haiming; Miao, Jiashi; Yue, Haiyan; Luo, Alan A.*.The effects of grain size and heat treatment on the deformation heterogeneities and fatigue behaviors of GW83K magnesium alloys.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2019, 754: 246-257.

[36]He, Chao; Wu, Yujuan; Peng, Liming; Su, Ning; Li, Xue; Yang, Kun; Liu, Yongjie; Yuan, Shucheng; Tian, Renhui.Cyclic Deformation and Correspondent Crack Initiation at Low-Stress Amplitudes in Mg-Gd-Y-Zr Alloy.Materials, 2018, 11(12): 2429.

[37]Guo, Jiacheng; Guo, Xingwu*; Zeng, Jiyong; Nie, Lewen; Dong, Jie; Peng, Liming; Ding, Wenjiang.Influence of sodium dodecyl sulphate on the surface morphology and infrared emissivity of porous Ni film.Infrared Physics & Technology, 2018, 93: 162-170.

[38]Zhang, Yu*; Rong, Wei; Wu, Yujuan*; Peng, Liming; Nie, Jian-Feng; Birbilis, Nick.A comparative study of the role of Ag in microstructures and mechanical properties of Mg-Gd and Mg-Y alloys.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2018, 731: 609-622.

[39]Qian, Shengnan; Dong, Chuang*; Liu, Tianyu; Qin, Ying; Wang, Qing; Wu, Yujuan*; Gu, Lidong; Zou, Jianxin; Heng, Xiangwen; Peng, Liming; Zeng, Xiaoqin.Solute-homogenization model and its experimental verification in Mg-Gd-based alloys.Journal of Materials Science & Technology, 2018, 34(7): 1132-1141.

[40]Wang, Yongbiao; Peng, Liming*; Ji, Yanzhou; Chen, Xiaoxing; Wang, Cunlong; Wu, Yujuan; Fu, Yanan; Chen, Long-Qing.Effect of cooling rates on the dendritic morphology transition of Mg-6Gd alloy by in situ X-ray radiography.Journal of Materials Science & Technology, 2018, 34(7): 1142-1148.

[41]Zhang, Yu; Gore, Poorwa; Rong, Wei; Wu, Yujuan; Yan, Yuanming; Zhang, Ruifeng; Peng, Liming*; Nie, Jian-Feng; Birbilis, Nick*.Quasi-in-situ STEM-EDS insight into the role of Ag in the corrosion behaviour of Mg-Gd-Zr alloys.Corrosion Science, 2018, 136: 106-118.

[42]Liu, Yue; Chen, Juan*; Peng, Liming; Han, Jingyu; Deng, Nanxiang; Ding, Wenjiang; Chen, Weifan.Improved optical properties of switchable mirrors based on Pd/Mg-TiO2 films fabricated by magnetron sputtering.Materials and Design, 2018, 144: 256-262.

[43]Yang, Zhenzhen; Wang, Ke; Fu, Penghuai*; Peng, Liming; Hu, Bin; Liu, Ming; Sachdev, Anil K..Influence of alloying elements on hot tearing susceptibility of Mg-Zn alloys based on thermodynamic calculation and experimental.Journal of Magnesium and Alloys, 2018, 6(1): 44-51.

[44]Zhang, Yu; Zhu, Yuman; Rong, Wei; Wu, Yujuan; Peng, Liming*; Nie, Jian Feng; Birbilis, Nick.On the Precipitation in an Ag-Containing Mg-Gd-Zr Alloy.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2018, 49A(2): 673-694.

[45]Tang, Tao; Shao, Yichuan; Li, Dayong*; Peng, Liming; Peng, Yinghong; Zhang, Shaorui; Wu, Peidong.Polycrystal plasticity simulation of extrusion of a magnesium alloy round bar: Effect of strain path non-uniformity.Journal of Alloys and Compounds, 2018, 730: 161-181.

[46]Han, Jingyu; Chen, Juan*; Peng, Liming; Tan, Shuai; Wu, Yujuan; Zheng, Feiyan; Yi, Hong。Microstructure, texture and mechanical properties of friction stir processed Mg-14Gd alloys.MATERIALS & DESIGN, 2017, 130: 90-102.

[47]Rong, Wei; Zhang, Yu; Wu, Yujuan*; Chen, Yuanli; Tang, Tao; Peng, Liming; Li, Dayong.Fabrication of high-strength Mg-Gd-Zn-Zr alloys via differential-thermal extrusion .Materials Characterization, 2017, 131: 380-387.

[48]Liu, H; Xu, W F; Wilson, N C; Peng, L M*; Nie, J F*.Formation Formation of and interaction between beta '(F) and beta ' phases in a Mg-Gd alloy.Journal of Alloys and Compounds, 2017, 712: 334-344.

[49]Li, Zhenming*; Zou, Hui; Dai, Jichun; Feng, Xuejiao; Sun, Ming; Peng, Liming.A comparison of low-cycle fatigue behavior between the solutionized and aged Mg-3Nd-0.2Zn-0.5Zr alloys.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2017, 695: 342-349.

[50]Guo, Jiacheng; Guo, Xingwu*; Xu, Wenbin; Zhang, Zhicheng; Dong, Jie; Peng, Liming; Ding, Wenjiang.A Zn-Ni coating with both high electrical conductivity and infrared emissivity prepared by hydrogen evolution method.Applied Surface Science, 2017, 402: 92-98.

[51]Liu, H; Xu, W F; Peng, L M*; Ding, W J; Nie, J F*.A simulation study of the distribution of beta ' precipitates in a crept Mg-Gd-Zr alloy.Computational Materials Science, 2017, 130: 152-164.

[52]Rong, Wei; Wu, Yujuan*; Zhang, Yu; Sun, Ming; Chen, Juan; Peng, Liming; Ding, Wenjiang.Characterization and strengthening effects of gamma ' precipitates in a high-strength casting Mg-15Gd-1Zn-0.4Zr (wt.%) alloy.Materials Characterization, 2017, 126: 1-9.

[53]Li, Jiehua*; Albu, Mihaela; Wu, Yujuan; Peng, Liming*; Dienstleder, Martina; Kothleitner, Gerald; Hofer, Ferdinand; Schumacher, Peter.Precipitation of Long-Period Stacking Ordered Structure in Mg-Gd-Zn-Mn Alloy.Advanced Engineering Materials, 2017, 19(4): UNSP 1600705.

[54]Wang, Y.; Rong, W.; Wu, Y. J.*; Peng, L. M.; Chen, J.; Ding, W. J.. Effects of Mn addition on the microstructures and mechanical properties of the Mg-15Gd-1Zn alloy.Journal of Alloys and Compounds, 2017, 698: 1066-1076.

[55]Li, Zhenming; Luo, Alan A.; Wang, Qigui; Zou, Hui; Dai, Jichun; Peng, Liming*.Fatigue characteristics of sand-cast AZ91D magnesium alloy.Journal of Magnesium and Alloys, 2017, 5(1): 1-12.

[56]Li, Zhenming*; Zou, Hui; Feng, Xuejiao; Dai, Jichun; Xiao, Zhengqiang; Peng, Liming*.Effect of Nd additions on fatigue characteristics of a cast Mg-Zn-Zr alloy.Journal of Materials Research, 2017, 32(6): 1083-1093.

[57]Liao, Haiguang; Fu, Penghuai*; Peng, Liming; Li, Jia; Zhang, Shuquan; Hu, Guoqi; Ding, Wenjiang.Microstructure and mechanical properties of laser melting deposited GW103K Mg-RE alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2017, 687: 281-287.

[58]Li, Bingbing; Dong, Jie; Zhang, Zhenyan; Nie, Jian-Feng; Bourgeois, Laure; Peng, Liming*.On the strengthening precipitate phases and phase transformation of beta"/beta ' in a Mg-Sm-Zr alloy.Materials and Design, 2017, 116: 419-426.

[59]Rong, Wei; Zhang, Yu; Wu, Yujuan*; Sun, Ming; Chen, Juan; Wang, Ying; Han, Jingyu; Peng, Liming; Ding, Huaixin.Effects of Zr and Mn additions on formation of LPSO structure and dynamic recrystallization behavior of Mg-15Gd-1Zn alloy.Journal of Alloys and Compounds, 2017, 692: 805-816.

[60]Liao, Haiguang; Chen, Juan*; Peng, Liming; Han, Jingyu; Yi, Hong; Zheng, Feiyan; Wu, Yujuan; Ding, Wenjiang.Fabrication and characterization of magnesium matrix composite processed by combination of friction stir processing and high-energy ball milling.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2017, 683: 207-214.

[61]Yi, H; Peng, L M*; Zhang, D L; Zeng, W; Wan, L; Han, J Y; Cheng, X W; Ding, W J.Fabrication of a bulk GdN nanoparticles-reinforced Mg-Gd matrix nanocomposite with phenomenal mechanical properties.Materials Letters, 2016, 185: 127-130.

[62]Yue, Haiyan; Fu, Penghuai; Li, Zhenming; Peng, Liming*.Tensile crack initiation behavior of cast Mg-3Nd-0.2Zn-0.5Zr magnesium alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2016, 673: 458-466.

[63]Li, Zhenming*; Luo, Alan A.; Wang, Qigui; Peng, Liming; Zhang, Peng.Fatigue Properties of Cast Magnesium Wheels.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2016, 47A(8): 4239-4257.

[64]Li, Zhenming; Wang, Qigui; Luo, Alan A.; Zhang, Peng; Peng, Liming*.Size Effect on Magnesium Alloy Castings.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2016, 47A(6): 2686-2704.

[65]Du, Yaxian; Wu, Yujuan*; Peng, Liming; Chen, Juan; Zeng, Xiaoqin; Ding, Wenjiang.Formation of lamellar phase with 18R-type LPSO structure in an as-cast Mg96Gd3Zn1(at%) alloy.Materials Letters, 2016, 169: 168-171.

[66]Hu, Xiaoyu; Fu, Penghuai; StJohn, David*; Peng, Liming*; Sun, Ming; Zhang, Mingxing.On grain coarsening and refining of the Mg-3Al alloy by Sm.Journal of Alloys and Compounds, 2016, 663: 387-394.

[67]Han, Jingyu; Chen, Juan*; Peng, Liming; Zheng, Feiyan; Rong, Wei; Wu, Yujuan; Ding, Wenjiang.Influence of processing parameters on thermal field in Mg-Nd-Zn-Zr alloy during friction stir processing.Materials & Design, 2016, 94: 186-194.

[68]Guo, Jiacheng; Guo, Xingwu*; Wang, Shaohua; Zhang, Zhicheng; Dong, Jie; Peng, Liming; Ding, Wenjiang.Effects of glycine and current density on the mechanism of electrodeposition, composition and properties of Ni-Mn films prepared in ionic liquid.Applied Surface Science, 2016, 365: 31-37.

[69]Wang, Yongbiao*; Peng, Liming; Ji, Yanzhou; Cheng, Xiaoxing; Wang, Nan; Zhao, Yan; Fu, Yanan; Chen, Long-Qing; Ding, Wenjiang.The effect of low cooling rates on dendrite morphology during directional solidification in Mg-Gd alloys: In situ X-ray radiographic observation.Materials Letters, 2016, 163: 218-221.

[70]Li, Juncai; He, Zongling; Fu, Penghuai*; Wu, Yujuan; Peng, Liming; Ding, Wenjiang.Heat treatment and mechanical properties of a high-strength cast Mg-Gd-Zn alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2016, 651: 745-752.

[71]Zhang, Peng; Li, Zhenming*; Liu, Baoliang; Ding, Wenjiang; Peng, Liming.Improved tensile properties of a new aluminum alloy for high pressure die casting. Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2016, 651: 376-390.

[72]Yue, Haiyan; Fu, Penghuai*; Peng, Liming; Li, Zhenming; Pan, Jipeng; Ding, Wenjiang.Damage morphology study of high cycle fatigued as-cast Mg-3.0Nd-0.2Zn-Zr (wt.%) alloy.Materials Characterization, 2016, 111: 93-105.

[73]Zhang, Yu; Alam, Talukder; Gwalani, Bharat; Rong, Wei; Banerjee, Rajarshi; Peng, Li-Ming*; Nie, Jian-Feng; Birbilis, Nick.On the role of Ag in enhanced age hardening kinetics of Mg-Gd-Ag-Zr alloys.Philosophical Magazine Letters, 2016, 96(6): 212-219.

[74]Peng Zhang; ZhenmingLi*; BaoliangLiu; WenjiangDing; LimingPeng.Improvedtensilepropertiesofanewaluminumalloy for high pressure die casting. Materials Science & EngineeringA, 2015, 651: 376-390.

[75]Li, Zhenming; Wang, Qigui; Luo, Alan A.; Fu, Penghuai; Peng, Liming*.Fatigue strength dependence on the ultimate tensile strength and hardness in magnesium alloys.International Journal of Fatigue, 2015, 80: 468-476.

[76]Li, Zhenming; Wang, Qigui; Luo, Alan A.; Peng, Liming*; Zhang, Peng.Fatigue behavior and life prediction of cast magnesium alloys.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2015, 647: 113-126.

[77]Wang, Yongbiao; Peng, Liming*; Wu, Yujuan; Zhao, Yan; Wang, Yongxin; Huang, Yongbing; Ding, Wenjiang.Phase-field modeling the effect of misfit on the precipitation of the second-phase particles and grain coarsening.Computational Materials Science, 2015, 100(PB): 166-172.

[78]Sun, Ming; Hu, Xiaoyu; Peng, Liming*; Fu, Penghuai; Ding, Wenjiang; Peng, Yinghong.On the production of Mg-Nd master alloy from NdFeB magnet scraps.Journal of Materials Processing Technology, 2015, 218: 57-61.

[79]Liu, Ningyuan; Zhang, Zhenyan*; Peng, Liming; Ding, Wenjiang.Microstructure evolution and mechanical properties of Mg-Gd-Sm-Zr alloys.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2015, 627: 223-229.

[80]Xinyu Chen; Yu Zhang; Liming Peng*; Chuan Zhang.Experimental investigation and thermodynamic assessment of the Mg–Gd–Ag system focused on Mg-rich region.CALPHAD: Computer Coupling of Phase Diagrams and Thermochemistry , 2015, 48(-): 43-54.

[81]W.F. Xu; Y. Zhang; L.M. Peng*; W.J. Ding; J.F. Nie.Formation of denuded zones in crept Mg–2.5Gd–0.1Zr alloy.Acta Materialia, 2015, 84(-): 317-329.

[82]Sun, Ming; Hu, Xiaoyu; Peng, Liming*; Fu, Penghuai; Peng, Yinghong.Effects of Sm on the grain refinement, microstructures and mechanical properties of AZ31 magnesium alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2015, 620: 89-96.

[83]Yongbiao Wang; Liming Peng*; Yujuan Wu; Yan Zhao; Yongxin Wang; Yongbing Huang; Wenjiang Ding.Phase-field modeling the effect of misfit on the precipitation of the second-phase particles and grain coarsening.Computational Materials Science, 2014, 100: 166-172.

[84]Zhang, Yu; Wu, Yujuan*; Peng, Liming; Fu, Penghuai; Huang, Fei; Ding, Wenjiang.Microstructure evolution and mechanical properties of an ultra-high strength casting Mg-15.6Gd-1.8Ag-0.4Zr alloy.Journal of Alloys and Compounds, 2014, 615: 703-711.

[85]Wang, Shao-hua; Guo, Xing-wu*; Sun, Can; Gong, Jia; Peng, Li-Ming; Ding, Wen-jiang.Electrodeposition of Cu coating with high corrosion resistance on Mg-3.0Nd-0.2Zn-0.4Zr magnesium alloy.Transactions of Nonferrous Metals Society of China, 2014, 24(12): 3810-3817.

[86]Peng, Liming; Fu, Penghuai*; Li, Zhenming; Wang, Yingxin; Jiang, Haiyan.High cycle fatigue properties of cast Mg-xNd-0.2Zn-Zr alloys.Journal of Materials Science, 2014, 49(20): 7105-7115.

[87]W.F.Xu; Y.Zhang; L.M.Peng*; W.J.Ding; J.F.Nie.Linear precipitatechainsinMg-2.4Gd-0.1Zralloyaftercreep.Materials Letters, 2014, 137: 417-420.

[88]Xu, Wen-Fan*; Zhang, Yu; Terbush, Jessica Renae; Peng, Li-Ming*; Ding, Wen-Jiang; Nie, Jian-Feng.Effects of Alloying Elements on Creep Properties of Mg-Gd-Zr Alloys.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2014, 45A(9): 4103-4116.

[89]Fu Penghuai; Peng Liming; Jiang Haiyan*; Ding Wenjiang; Zhai Chunquan.Tensile properties of high strength cast Mg alloys at room temperature: A review.China Foundry, 2014, 11(4): 277-286.

[90]Fan, T.*; Luo, L.; Ma, L.; Tang, B.; Peng, L.; Ding, W..First-principles study of full a-dislocations in pure magnesium.Journal of Applied Mechanics and Technical Physics, 2014, 55(4): 672-681.

[91]L.M. Peng; P.H.Fu; Z.M.Li*; H.Y.Yue; D.Y.Li; Y.X.Wang.High cyclefatiguebehaviorsoflowpressurecast Mg–3Nd–0.2Zn–2Zr alloys.Materials Science & Engineering A, 2014, 611: 170-176.

[92]Wang Ming-hui; Pan Rong-kai; Li Peng-bo; Bian Nan; Tang Bi-yu*; Peng Li-ming; Ding Wen-jiang.First-principles study on mechanical properties of LaMg3 and LaCuMg2.Journal of Central South University, 2014, 21(6): 2136-2142.

[93]Fan, Tou-Wen; Zhang, Quan; Ma, Li; Tang, Ping-Ying; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.First-principles study of the dislocation core structures on basal plane in magnesium.European Journal of Mechanics - A: Solids , 2014, 45: 1-7.

[94]He, Zongling; Peng, Liming; Pe, Penghuai*; Wang, Yingxin; Hu, Xiaoyu; Ding, Wenjiang.High cycle fatigue improvement by heat-treatment for semi-continuous casting Mg96.34Gd2.5Zn1Zr0.16 alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2014, 604: 78-85.

[95]Hu, Xiaoyu; Peng, Liming; Qian, Shengqian; Fu, Penghuai*; Ding, Wenjiang.Effects of intermediate frequency magnetic field on the solution treatment of Mg-Gd alloy.Materials Letters, 2014, 123: 238-241.

[96]Fan, Touwen; Wei, Liuting; Tang, Biyu*; Peng, Liming; Ding, Wenjiang.Effect of temperature-induced solute distribution on stacking fault energy in Mg-X(X = Li, Cu, Zn, Al, Y and Zr) solid solution: a first-principles study.Philosophical Magazine, 2014, 94(14): 1578-1587.

[97]Chen, Liping; Wang, Yingxin*; Peng, Liming; Fu, Penghuai; Jiang, Haiyan.Study on the interfacial heat transfer coefficient between AZ91D magnesium alloy and silica sand.Experimental Thermal and Fluid Science, 2014, 54: 196-203.

[98]Huang, Hao; Fu, Peng-huai*; Wang, Ying-xin; Peng, Li-Ming; Jiang, Hai-yan.Effect of pouring and mold temperatures on hot tearing susceptibility of AZ91D and Mg-3Nd-0.2Zn-Zr Mg alloys.Transactions of Nonferrous Metals Society of China, 2014, 24(4): 922-929.

[99]Wang, Shaohua; Guo, Xingwu*; Yang, Haiyan; Dai, JiChun; Zhu, Rongyu; Gong, Jia; Peng, Liming; Ding, Wenjiang.Electrodeposition mechanism and characterization of Ni-Cu alloy coatings from a eutectic-based ionic liquid.Applied Surface Science, 2014, 288: 530-536.

[100]Li, X. W.; Zheng, F. Y.; Wu, Y. J.*; Peng, L. M.; Zhang, Y.; Lin, D. L.; Ding, W. J..Modification of long period stacking ordered phase and improvement of mechanical properties of Mg-Gd-Zn-Zr alloy by friction stir processing.Materials Letters, 2013, 113: 206-209.

[101]He, Zongling; Fu, Penghuai*; Wu, Yujuan; Peng, Liming; Zhang, Yu; Li, Zhenming.High cycle fatigue behavior of as-cast Mg96.34Gd2.5Zn1Zr0.16 alloy fabricated by semi-continuous casting.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2013, 587: 72-78.

[102]Li, Zhenming; Wang, Qigui; Luo, Alan A.; Fu, Penghuai; Peng, Liming*; Wang, Yingxin; Wu, Guohua.High Cycle Fatigue of Cast Mg-3Nd-0.2Zn Magnesium Alloys.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2013, 44A(11): 5202-5215.

[103]Li, Z. M.; Wang, Q. G.; Luo, A. A.; Peng, L. M.*; Fu, P. H.; Wang, Y. X. Improved high cycle fatigue properties of a new magnesium alloy.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2013, 582: 170-177.

[104]Fan, Tou-Wen; Luo, Li-Guo; Ma, Li; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Effects of Zn atoms on the basal dislocation in magnesium solution from Peierls-Nabarro model.Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2013, 582: 299-304.

[105]Li, Z. M.; Fu, P. H.; Peng, L. M.*; Wang, Y. X.; Jiang, H. Y.; Wu, G. H. Comparison of high cycle fatigue behaviors of Mg-3Nd-0.2Zn-Zr alloy prepared by different casting processes.MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2013, 579: 170-179.

[106]Ma, Li; Fan, Tou Wen; Pan, Rong Kai; Tang, Bi Yu*; Peng, Li Ming; Ding, Wen Jiang. dislocation core properties in L1(2) Al3Sc and Al3Mg based on the Peierls-Nabarro model .Physica Status Solidi B-Basic Solid State Physics, 2013, 250(9): 1825-1831.

[107]Li, Zhenming; Fu, Penghuai*; Peng, Liming; Wang, Yingxin; Jiang, Haiyan.Strengthening mechanisms in solution treated Mg-yNd-zZn-xZr alloy.JOURNAL OF MATERIALS SCIENCE, 2013, 48(18): 6367-6376.

[108]Huang, H.; Wang, Y. X.; Fu, P. H.*; Peng, L. M.; Jiang, H. Y.; Xu, W. Y. Fluidity of AZ91D and Mg-3Nd-0.2Zn-Zr (wt-%) magnesium alloys: response to pouring and mould temperature.INTERNATIONAL JOURNAL OF CAST METALS RESEARCH, 2013, 26(4): 213-219.

[109]Zhang, Quan; Fu, Lin; Fan, Tou-Wen; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Ab initio study of the effect of solute atoms Zn and Y on stacking faults in Mg solid solution.PHYSICA B-CONDENSED MATTER, 2013, 416: 39-44.

[110]Wu, Y. J.; Xu, C.; Zheng, F. Y.; Peng, L. M.*; Zhang, Y.; Ding, W. J.Formation and characterization of microstructure of as-cast Mg-6Gd-4Y-xZn-0.5Zr (x=0.3, 0.5 and 0.7 wt.%) alloys.MATERIALS CHARACTERIZATION, 2013, 79: 93-99.

[111]Ma, Li*; Fan, Tou-Wen; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-jiang.Ab initio study of I-2 and T-2 stacking faults in C14 Laves phase MgZn2.EUROPEAN PHYSICAL JOURNAL B, 2013, 86(4): 188.

[112]Li, Zhenming; Fu, Penghuai*; Peng, Liming; Becker, Edward P.; Wu, Guohua.Influence of solution temperature on fatigue behavior of AM-SC1 cast magnesium alloy.MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2013, 565: 250-257.

[113]Li, Z. M.; Luo, A. A.; Wang, Q. G.; Peng, L. M.*; Fu, P. H.; Wu, G. H..Effects of grain size and heat treatment on the tensile properties of Mg-3Nd-0.2Zn (wt%) magnesium alloys .MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2013, 564: 450-460.

[114]Ma, Li; Pan, Rong-Kai; Fan, Tou-Wen; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Ab initio study of {110} superdislocation properties in B2-MgRE (RE = La-Er) intermetallics. COMPUTATIONAL MATERIALS SCIENCE, 2013, 69: 168-172.

[115]Pan, Rong-Kai*; Ma, Li; Bian, Nan; Wang, Ming-Hui; Li, Peng-Bo; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.First-principles study on the elastic properties of B ' and Q phase in Al-Mg-Si (-Cu) alloys.PHYSICA SCRIPTA, 2013, 87(1): 015601.

[116]Tou Wen Fan; Jiang Ling Ke; Ling Fu; Bi Yu Tang; Li Ming Peng; Wen Jiang Ding.Ideal strength of Mg2X (X = Si, Ge, Sn and Pb) from first-principles.Journal of Magnesium and Alloys, 2013, 1(2): 163-168.

[117]Wang, Shaohua; Guo, Xingwu; Xie, Yijun; Liu, Lihua; Yang, Haiyan; Zhu, Rongyu; Gong, Jia; Peng, Liming; Ding, Wenjiang.Preparation of superhydrophobic silica film on Mg-Nd-Zn-Zr magnesium alloy with enhanced corrosion resistance by combining micro-arc oxidation and sol-gel method.SURFACE & COATINGS TECHNOLOGY, 2012, 213: 192-201.

[118]Liang Min-jie*; Liao Hai-hong; Ding Wen-jiang; Peng Li-ming; Fu Peng-huai.Microstructure characterization on Mg-2Nd-4Zn-1Zr alloy during heat treatment.Transactions of Nonferrous Metals Society of China, 2012, 22(10): 2327-2333.

[119]Chen, Xiao-Jun; Mo, Zhou-Sheng; Wang, Ren-Nian; Zeng, Meng-Xue; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Elastic and electronic properties of the Ti5X3 (X=Si, Ge, Sn, Pb) compounds from first-principles calculations.JOURNAL OF SOLID STATE CHEMISTRY, 2012, 194: 127-134.

[120]Zhang, Quan; Fan, Tou-Wen; Fu, Lin; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Ab-initio study of the effect of rare-earth elements on the stacking faults of Mg solid solutions.Intermetallics, 2012, 29: 21-26.

[121]Li Zhifeng*; Li Zhenming; Fu Penghuai; Peng Liming; Wang Yingxin.Study on High Cycle Fatigue Behavior of Gravity Cast Mg-3Nd-0.2Zn-Zr Magnesium Alloy.Rare Metal Materials and Engineering, 2012, 41(9): 1592-1596.

[122]Fu, Lin; Ke, Jiang-Ling; Zhang, Quan; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Mechanical properties of L1(2) type Al3X (X=Mg, Sc, Zr) from first-principles study.Physica Status Solidi. B: Basic Research , 2012, 249(8): 1510-1516.

[123]Wang, Ren-Nian; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jing.Ab initio study of the effect of Zr content on elastic and electronic properties of L1(2)-Al-3(Sc1-xZrx) alloys.Computational Materials Science, 2012, 59: 87-93.

[124]Ma, Lan; Mishra, Raja K.; Balogh, Michael P.; Peng, Liming*; Luo, Alan A.; Sachdev, Anil K.; Ding, Wenjiang.Effect of Zn on the microstructure evolution of extruded Mg-3Nd (-Zn)-Zr (wt.%) alloys.Materials Science and Engineering A-structural Materials Properties Microstructure and Processing, 2012, 543: 12-21.

[125]Ding, Wen-Jiang; Yi, Jian-Xiong; Chen, Ping; Li, Dong-Lin; Peng, Li-Ming; Tang, Bi-Yu*.Elastic properties and electronic structures of typical Al-Ce structures from first-principles calculations.Solid State Sciences, 2012, 14(5): 555-561.

[126]Wang, Ren-Nian; Zeng, Meng-Xue; Chen, Xiao-Jun; Mo, Zhou-Sheng; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Elastic properties of random L1(2)-Al-3(Sc0.5TM0.5) alloys from first-principle SQSs calculations.Journal of Materials Science, 2012, 47(8): 3793-3800.

[127]Zeng, Meng-Xue*; Wang, Ren-Nian; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.Elastic and electronic properties of tI26-type Mg12RE (RE = Ce, Pr and Nd) phases.Modelling and Simulation In Materials Science and Engineering, 2012, 20(3): 035018.

[128]Chen, Xiao-Jun; Zeng, Meng-Xue; Wang, Ren-Nian; Mo, Zhou-Sheng; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.First-principles study of (Ti5-xMgx)Si-3 phases with the hexagonal D8(8) structure: Elastic properties and electronic structure.Computational Materials Science, 2012, 54: 287-292.

[129]Tang, Ping-Ying; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Effect of Y and Zn substitution on elastic properties of 6H-type ABCBCB LPSO structure in Mg97Zn1Y2 alloy.Materials Chemistry and Physics, 2012, 131(3): 634-641.

[130]Peng Liming*; Hu Bin*; Ding Wenjiang. Mechanical properties, aging behavior and microstructure evolution of Mg-Nd-Zn-Zr basedmagnesium matrix composite reinforced with alumina fibers.Materials Science Forum, 2012, 706-709.

[131]Luo, Alan A.*; Fu, Penghuai; Peng, Liming; Kang, Xiaoyu; Li, Zhenzhen; Zhu, Tianyu.Solidification Microstructure and Mechanical Properties of Cast Magnesium-Aluminum-Tin Alloys.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science , 2012, 43A(1): 360-368.

[132]Yang, Fang; Fan, Tou-Wen; Wu, Jian; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Effects of Y and Zn atoms on the elastic properties of Mg solid solution from first-principles calculations.PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 2011, 248(12): 2809-2815.

[133]Ma, Lan; Mishra, Raja K.; Peng, Liming*; Luo, Alan A.; Ding, Wenjiang; Sachdev, Anil K.Texture and mechanical behavior evolution of age-hardenable Mg-Nd-Zn extrusions during aging treatment.MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2011, 529: 151-155.

[134]Zhang, Chuan*; Luo, Alan A.; Peng, Liming; Stone, Donald S.; Chang, Y. Austin.Thermodynamic modeling and experimental investigation of the magnesium-neodymium-zinc alloys.INTERMETALLICS, 2011, 19(11): 1720-1726.

[135]Tang, Ping-Ying; Wen, Li; Tong, Zhang-Fa; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Stacking faults in B2-structured magnesium alloys from first principles calculations .COMPUTATIONAL MATERIALS SCIENCE, 2011, 50(11): 3198-3207.

[136]Mo, Zhou-Sheng*; Zeng, Meng-Xue; Wang, Ren-Nian; Chen, Xiao-Jun; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.Study of the structural, elastic and electronic properties of ordered Ca(Mg1-xLix)(2) alloys from first-principles calculations.PHYSICA SCRIPTA, 2011, 84(5): 055603.

[137]Fan, T. W.*; Zhang, Q.; Tang, B. Y.; Peng, L. M.; Ding, W. J.Interaction between stacking faults in pure Mg.EUROPEAN PHYSICAL JOURNAL B, 2011, 82(2): 143-146.

[138]Tang Ping-ying; Wu Meng-meng; Tang Bi-yu*; Wang Ji-wei; Peng Li-ming; Ding Wen-jiang.Microstructure of 18R-type long period ordered structure phase in Mg97Y2Zn1 alloy.Transactions of Nonferrous Metals Society of China, 2011, 21(4): 801-806.

[139]Wang, Ji-Wei; Yang, Fang; Fan, Tou-Wen; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Theoretical investigation of new type of ternary magnesium alloys AMgNi(4) (A=Y, La, Ce, Pr and Nd).PHYSICA B-CONDENSED MATTER, 2011, 406(6-7): 1330-1335.

[140]Hu, Bin*; Peng, Liming; Ding, Wenjiang.Dry sliding wear behavior of Saffil fiber-reinforced Mg-10Gd-3Y-0.5Zr magnesium alloy-based composites.JOURNAL OF COMPOSITE MATERIALS, 2011, 45(6): 683-693.

[141]Wu, Meng-Meng; Jiang, Yi; Wang, Ji-Wei; Wu, Jian; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Structural, elastic and electronic properties of Mg(Cu1-xZnx)(2) alloys calculated by first-principles.JOURNAL OF ALLOYS AND COMPOUNDS, 2011, 509(6): 2885-2890.

[142]Tou-Wen Fan; Bi-Yu Tang; Li-Ming Peng; Wen-Jiang Ding.First-principles study of long-period stacking ordered-like multi-stacking fault structures in pure magnesium.Scripta Materialia, 2011, 64(10): 942-945.

[143]Yi, Jian-Xiong; Tang, Bi-Yu*; Chen, Ping; Li, Dong-Lin; Peng, Li-Ming; Ding, Wen-Jiang.Crystal structure of the mirror symmetry 10H-type long-period stacking order phase in Mg-Y-Zn alloy.JOURNAL OF ALLOYS AND COMPOUNDS, 2011, 509(3): 669-674.

[144]Yang, Y. L.; Peng, L. M.*; Fu, P. H.; Hu, B.; Ding, W. J.Study on microstructure of squeeze casting AZ91D alloy.MATERIALS SCIENCE AND TECHNOLOGY, 2011, 27(1): 189-193.

[145]Wu, Jian; Wen, Li; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jiang.Generalized planner fault energies, twinning and ductility of L1(2) type Al3Sc and Al3Mg.SOLID STATE SCIENCES, 2011, 13(1): 120-125.

[146]Wu, Meng-Meng; Tang, Bi-Yu*; Peng, Li-Ming; Ding, Wen-Jing.Elastic and electronic properties of ScMn(2) from first-principles calculations.PHYSICA B-CONDENSED MATTER, 2010, 405(23): 4812-4817.

[147]Zeng Xiaoqin; Wu Yujuan*; Peng Liming; Lin Dongliang; Ding Wenjiang; Peng Yinghong.LPSO STRUCTURE AND AGING PHASES IN Mg-Gd-Zn-Zr ALLOY.ACTA METALLURGICA SINICA, 2010, 46(9): 1041-1046.

[148]Wu, Meng-Meng; Wen, Li; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.First-principles study of elastic and electronic properties of MgZn2 and ScZn2 phases in Mg-Sc-Zn alloy.JOURNAL OF ALLOYS AND COMPOUNDS, 2010, 506(1): 412-417.

[149]Hu, Bin; Peng, Liming; Yang, Yanling; Ding, Wenjiang.Effect of solidification conditions on microstructure, mechanical and wear properties of Mg-5Al-3Ca-0.12Sr magnesium alloy.MATERIALS & DESIGN, 2010, 31(8): 3901-3907.

[150]Hu, Bin; Peng, Liming*; Powell, Bob R.; Balough, Michael P.; Kubic, Robert C.; Sachdev, Anil K.Interfacial and fracture behavior of short-fibers reinforced AE44 based magnesium matrix composites.JOURNAL OF ALLOYS AND COMPOUNDS, 2010, 504(2): 527-534.

[151]Tang, Bi-Yu; Li, Dong-Lin; Chen, Ping; Yi, Jian-Xiong; Wen, Li; Peng, Li-Ming; Ding, Wen-Jiang.The thermal properties of Al-Mg-TM (TM = Sc, Zr): Ab initio study.SOLID STATE SCIENCES, 2010, 12(5): 845-850.

[152]Jin, L.; Dong, J.; Wang, R.; Peng, L. M.Effects of hot rolling processing on microstructures and mechanical properties of Mg-3%Al-1%Zn alloy sheet.MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2010, 527(7-8): 1970-1974.

[153]Tang, Bi-Yu; Chen, Ping; Li, Dong-Lin; Yi, Jian-Xiong; Wen, Li; Peng, Li-Ming; Ding, Wen-Jiang.First-principles investigation of the structural and mechanical properties of beta '' phase in Mg-Gd alloy system.JOURNAL OF ALLOYS AND COMPOUNDS, 2010, 492(1-2): 416-420.

[154]L.M. Peng; Y.X. Wang; P.H. Fu; A.A. Luo; W.J. Ding. Numerical Simulation and Process Development for Low Pressure DieCasting of Magnesium Alloy Wheels.TRANSACTIONS OF THE AMERICAN FOUNDRY SOCIETY, 2010, 118: 355-362.

[155]Wu, Wenyun*; Jin, Li; Dong, Jie; Peng, Liming; Yao, Shoushan.Bending Mechanisms in AM30 Alloy Tube Using a Rotary Draw Bender.MATERIALS AND MANUFACTURING PROCESSES, 2010, 25(12): 1359-1364.

[156]Wen, L.; Chen, P.; Tong, Z. -F.; Tang, B. -Y.; Peng, L. -M.; Ding, W. -J.A systematic investigation of stacking faults in magnesium via first-principles calculation.EUROPEAN PHYSICAL JOURNAL B, 2009, 72(3): 397-403.

[157]Wu, Y. J.; Peng, L. M.; Zeng, X. Q.; Lin, D. L.; Ding, W. J.; Peng, Y. H.A high-strength extruded Mg-Gd-Zn-Zr alloy with superplasticity.JOURNAL OF MATERIALS RESEARCH, 2009, 24(12): 3596-3602.

[158]Chen, Ping; Li, Dong-Lin; Yi, Jian-Xiong; Wen, Li; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.Structural, elastic and electronic properties of beta ' phase precipitate in Mg-Gd alloy system investigated via first-principles calculation.SOLID STATE SCIENCES, 2009, 11(12): 2156-2161.

[159]Yang, Yanling; Peng, Liming; Fu, Penghuai; Hu, Bin; Ding, Wenjiang; Yu, Baozheng.Effects of Process Parameters on the Macrostructure of a Squeeze-Cast Mg-2.5 mass% Nd Alloy.MATERIALS TRANSACTIONS, 2009, 50(12): 2820-2825.

[160]Li, Dong-Lin; Chen, Ping; Yi, Jian-Xiong; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.Ab initio study on the thermal properties of the fcc Al3Mg and Al3Sc alloys.JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2009, 42(22): 225407.

[161]Yang, Yanling; Peng, Liming; Fu, Penghuai; Hu, Bin; Ding, Wenjiang.Identification of NdH2 particles in solution-treated Mg-2.5%Nd (wt.%) alloy.JOURNAL OF ALLOYS AND COMPOUNDS, 2009, 485(1-2): 245-248.

[162]Chen, Ping; Li, Dong-Lin; Yi, Jian-Xiong; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.Microstructure and electronic characteristics of the 6H-type ABACAB LPSO structure in Mg97Zn1Y2 alloy.JOURNAL OF ALLOYS AND COMPOUNDS, 2009, 485(1-2): 672-676.

[163]Yu, Wei-Yang; Wang, Na; Xiao, Xiao-Bing; Tang, Bi-Yu; Peng, Li-Ming; Ding, Wen-Jiang.First-principles investigation of the binary AB(2) type Laves phase in Mg-Al-Ca alloy: Electronic structure and elastic properties.SOLID STATE SCIENCES, 2009, 11(8): 1400-1407.

[164]Peng, Li-Ming; Chang, Jian-Wei; Guo, Xing-Wu; Atrens, Andrej; Ding, Wen-Jiang; Peng, Ying-Hong.Influence of heat treatment and microstructure on the corrosion of magnesium alloy Mg-10Gd-3Y-0.4Zr.JOURNAL OF APPLIED ELECTROCHEMISTRY, 2009, 39(6): 913-920.

[165]Zhang, Zhenyan; Peng, Liming*; Zeng, Xiaoqin; Fu, Penghuai; Ding, Wenjiang.Characterization of phases in a Mg-6Gd-4Sm-0.4Zr (wt.%) alloy during solution treatment., Materials Characterization, 2009, 60(6):555-559 DOI: 10.1016/j.matchar.2009.01.002

[166]Yu Wei-Yang; Tang Bi-Yu; Peng Li-ming; Ding Wen-Jiang.Electronic structure and mechanical properties of alpha-Mg3Sb2.Acta Physica Sinica, 2009, 58(6).

[167]Wu, Y. J.; Zeng, X. Q.; Lin, D. L.; Peng, L. M.; Ding, W. J.The microstructure evolution with lamellar 14H-type LPSO structure in an Mg96.5Gd2.5Zn1 alloy during solid solution heat treatment at 773 K.JOURNAL OF ALLOYS AND COMPOUNDS, 2009, 477(1-2): 193-197.

[168]Lin, Jinbao; Wang, Qudong; Peng, Liming; Roven, Hans J.Microstructure and high tensile ductility of ZK60 magnesium alloy processed by cyclic extrusion and compression. JOURNAL OF ALLOYS AND COMPOUNDS, 2009, 476(1-2): 441-445.

[169]Ding, W. J.; Wu, Y. J.; Peng, L. M.; Zeng, X. Q.; Yuan, G. Y.; Lin, D. L.Formation of 14H-type long period stacking ordered structure in the as-cast and solid solution treated Mg-Gd-Zn-Zr alloys.JOURNAL OF MATERIALS RESEARCH, 2009, 24(5): 1842-1854.

[170]Xiao, Xiao-Bing; Tang, Bi-Yu; Liao, Sun-Qi; Peng, Li-Ming; Ding, Wen-jiang.Thermodynamic and electronic properties of quaternary hydrides LixNa1-xMgH3.JOURNAL OF ALLOYS AND COMPOUNDS, 2009, 474(1-2): 522-526.

[171]Lin JinBao; Peng Liming; Wang QuDong; Hans, J. R.; Ding WenJiang.Anisotropic plastic deformation behavior of as-extruded ZK60 magnesium alloy at room temperature.Science in China - Series E: Technological Sciences , 2009, 52(1): 161-165.

[172]Chang Jian-wei; Guo Xing-wu; Peng Li-ming; Ding Wen-jiang; Peng Ying-hong.Characterization of anodic coating formed on Mg-3Nd-0.2Zn-0.4Zr Mg alloy in alkaline electrolyte.Transactions of Nonferrous Metals Society of China, 2008, 18.

[173]Chang Jian-wei; Guo Xing-wu; Peng Li-ming; Ding Wen-jiang; Peng Ying-hong.Characterization of anodic coating formed on Mg-3Nd-0.2Zn-0.4Zr Mg alloy in alkaline electrolyte.Transactions of Nonferrous Metals Society of China, 2008, 18.

[174]Zhang Zhen-yan; Peng Li-ming; Zeng Xiao-qin; Ding Wen-Jiang.Effects of Cu and Mn on mechanical properties and damping capacity of Mg-Cu-Mn alloy.Transactions of Nonferrous Metals Society of China, 2008, 18.

[175]Lin, Jinbao*; Wang, Qudong; Peng, Liming; Roven, Hans J.Study on deformation behavior and strain homogeneity during cyclic extrusion and compression.Journal of Materials Science, 2008, 43(21): 6920-6924.

[176]Wang, Na*; Yu, Wei Yang; Tang, Bi Yu; Peng, Li Ming; Ding, Wen Jiang.Structural and mechanical properties of Mg(17)Al(12) and Mg(24)Y(5) from first-principles calculations .Journal of Physics D: Applied Physics , 2008, 41(19): 195408.

[177]Fu, Penghuai; Luo, Alan A.; Jiang, Haiyan; Peng, Liming; Yu, Yandong; Zhai, Chunquan; Sachdev, Anil K..Low-pressure die casting of magnesium alloy AM50: Response to process parameters.JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2008, 205(1-3): 224-234.

[178]Fu Penghuai; Peng Liming; Jiang Haiyan; Chang Jianwei; Zhai Chunquan.Effects of heat treatments on the microstructures and mechanical properties of Mg-3Nd-0.2Zn-0.4Zr (wt.%) alloy.MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2008, 486(1-2): 183-192.

[179]Fu Penghuai; Peng Liming; Hang Haiyan; Zhang Zhenyan; Zhai Chunquan.Fracture behavior and mechanical properties of Mg-4Y-2Nd-1Gd-0.4Zr (wt.%) alloy.MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2008, 486(1-2): 572-579.

[180]Lin, Jinbao; Wang, Qudong; Peng, Liming; Peng, Tao.Effect of the cyclic extrusion and compression processing on microstructure and mechanical properties of as-extruded ZK60 magnesium alloy.MATERIALS TRANSACTIONS, 2008, 49(5): 1021-1024.

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發(fā)表中文期刊論文：

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[2]高睿恒,李貞,王雪強,包有宇,彭立明,王迎新.高速鐵路輕量化設計棘輪的鑄造工藝研究[J/OL].熱加工工藝,2023(21):128-132+136[2023-06-27].DOI:10.14158/j.cnki.1001-3814.20230260.

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[5]徐雯鈺,林金銘,付彭懷,陳娟,胡國琦,彭立明.熱處理對SLM成形Mg-3.0Nd-Zn-Zr合金性能的影響[J].特種鑄造及有色合金,2022,42(09):1076-1081.DOI:10.15980/j.tzzz.2022.09.005.

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[55]章楨彥,彭立明,曾小勤,丁文江.Effects of Cu and Mn on mechanical properties and damping capacity of Mg-Cu-Mn alloy[J].Transactions of Nonferrous Metals Society of China,2008,18(S1):55-58.

[56]常建衛(wèi),郭興伍,彭立明,丁文江,彭穎紅.Characterization of anodic coating formed on Mg-3Nd-0.2Zn-0.4Zr Mg alloy in alkaline electrolyte[J].Transactions of Nonferrous Metals Society of China,2008,18(S1):318-322.

[57]蔣海燕,付彭懷,彭立明,周素洪,翟春泉,丁文江.Mg-3Nd-0.2Zn-0.4Zr合金的顯微組織與力學性能[J].特種鑄造及有色合金,2008(S1):254-258.

[58]丁文江,彭立明,付彭懷,何上明,陳彬,郭興伍,曾小勤.高性能鎂合金及其成形加工技術與應用研究進展[J].新材料產(chǎn)業(yè),2008(02):58-63.

[59]王渠東,林金保,彭立明,陳永軍.往復擠壓變形對ZK60鎂合金力學性能的影響[J].金屬學報,2008(01):55-58.

[60]常建衛(wèi),郭興伍,付彭懷,彭立明,丁文江.Relationship between heat treatment and corrosion behaviour of Mg-3.0%Nd-0.4%Zr magnesium alloy[J].Transactions of Nonferrous Metals Society of China,2007(06):1152-1157.

[61]林金保,彭立明,王渠東,周陽,丁文江.Influence of solidification conditions on mechanical properties of Mg-10Gd-3Y-0.5Zr magnesium alloy[J].Transactions of Nonferrous Metals Society of China,2007(S1):368-371.

[62]曾一文,彭立明,毛協(xié)民,丁文江.二氟甲烷在鎂合金熔煉保護的研究[J].特種鑄造及有色合金,2005(07):406-407+382.

[63]曾小勤,丁文江,姚正裔,彭立明,盧晨.Mg-Zn-Al系合金組織和力學性能[J].上海交通大學學報,2005(01):46-51.DOI:10.16183/j.cnki.jsjtu.2005.01.011.

[64]彭立明,曾小勤,朱燕萍,王渠東,丁文江.一種新型鎂合金的開發(fā)及其應用[J].有色金屬加工,2003,32(02):18-22.

[65]彭立明,曾小勤,朱燕萍,丁文江.固溶處理對AM60B+xRE及AZ91D+xRE鎂合金性能的影響[J].材料研究學報,2003(01):97-106.

[66]曹幸,彭立明,曾小勤,朱燕萍,丁文江.稀土及固溶處理對AM60B合金組織和力學性能的影響[J].機械工程材料,2003(02):21-24.

[67]彭立明,毛協(xié)民,丁文江.自生復合Cu-Cr合金綜合性能的熱穩(wěn)定性[J].中國有色金屬學報,2002(02):309-314.DOI:10.19476/j.ysxb.1004.0609.2002.02.022.

[68]彭立明,毛協(xié)民,***,丁文江.基于數(shù)值模擬的定向連續(xù)鑄造固液界面位置人工神經(jīng)網(wǎng)絡模型的研究[J].鑄造,2001(11):683-686.

[69]彭立明,毛協(xié)民,溫宏權.凝固工藝對自生復合Cu-Cr合金電車線綜合性能的影響[J].功能材料,2001(02):158-160.

[70]彭立明,毛協(xié)民,溫宏權.自生復合Cu-Cr合金的定向凝固特性[J].稀有金屬材料與工程,2000(05):307-310.

[71]彭立明,毛協(xié)民,徐匡迪.Simulation and control model for interactions among process parameters of directional solidification continuous casting[J].Transactions of Nonferrous Metals Society of China,2000(04):449-452.

[72]彭立明,毛協(xié)民,陳定興,錢榮華,徐寶根.CAE技術在2VQS機油濾清器支架壓鑄工藝中的應用[J].鑄造,2000(03):160-163.

[73]鄒啟明,彭立明,溫宏權,毛協(xié)民,王海江.鋁桿上引連鑄技術探討[J].特種鑄造及有色合金,1999(S1):95-96.

[74]彭立明,溫宏權,鄒啟明,毛協(xié)民.自生復合Cu08Cr合金定向凝固過程研究[J].材料工程,1999(09):7-9.

[75]彭立明,張啟勛.14英寸顯像管玻殼錐凸模鑄造工藝的優(yōu)化設計[J].鑄造技術,1998(05):3-5.

[76]溫宏權,鄒啟明,彭立明,毛協(xié)民,侯旭.Directional Solidification of Cu-Cr Alloy[J].Rare Metals,1998(02):25-29.

[77]溫宏權,鄒啟明,彭立明,毛協(xié)民,侯旭. Directional Solidification of Cu-Cr Alloy[J]. 稀有金屬：英文版,1998,0(2).

發(fā)表中文會議文：

[1]陳娟; 鄧南香; 王廷炎; 方浩瀾; 彭立明. 基于微結構及成分波動調控FC/Pd/Mg-X薄膜氫致變色性能研究[C].中國稀土學會2022學術年會、第十四屆中國包頭·稀土產(chǎn)業(yè)論壇摘要集.2022:458.DOI:10.26914/c.cnkihy.2022.054430.

[2]StJohn, D H*; Hu, X; Sun, M; Peng, L; Dieringa, H. Recent developments in the application of the interdependence model of grain formation and refinement.International Symposium on Magnesium Technology, 2018, 2018-03-11 to 2018-03-15.

[3]袁靈洋,劉保良,彭立明. Cu元素對壓鑄Al-5.5Mg-0.7Mn合金組織與性能的影響[C].第十三屆中國國際壓鑄會議暨第4屆有色合金及特種鑄造技術國際研討會論文集.2018:48.DOI:10.26914/c.cnkihy.2018.010523.

[4]李學文,彭立明,鄭飛燕. 攪拌摩擦加工含長周期有序結構的Mg-2.5Gd-1Zn-0.18Zr合金的顯微組織研究[C].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)新研討會論文摘要集.[出版者不詳],2013:224-225.

[5]Zheng, Feiyan*; Peng, Liming; Wu, Yujuan; Li, Xuewen; Zhang, Yu; Ding, Wenjiang. The Effect of Friction Stir Process (FSP) on the Microstructure and Mechanical Properties of Mg-Gd-Ag-Zr Alloy.6th International Light Metals Technology Conference (LMT 2013), 2013-07-24 to 2013-07-26.

[6]Luo, A A; Fu, P; Zeng, X; Peng, L; Hu, B; Sachdev, A K. Microstructure and mechanical properties of die cast magnesium-aluminum-tin alloys.Magnesium Technology 2013 - TMS 2013 Annual Meeting and Exhibition, 2013-03-03 to 2013-03-07.

[7]鄭飛燕,彭立明,李學文. 攪拌摩擦加工對Mg-Gd-Ag-Zr合金組織和性能的影響[C].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)新研討會論文摘要集.2013:225-227.

[8]彭立明. 第12章新型合金材料-鎂合金[C].中國新材料產(chǎn)業(yè)發(fā)展報告（2011）.2012:167-177+6.

[9]Peng Liming*; Hu Bin; Ding Wenjiang.Mechanical properties, aging behavior and microstructure evolution of Mg-Nd-Zn-Zr based magnesium matrix composite reinforced with alumina fibers.7^th International Conference on Processing and Manufacturing of Advanced Materials, 2011-08-01 to 2011-08-05.

[10]Tang, Ping Ying*; Zeng, Meng Xue; Li, Dong Lin; Tang, Bi Yu; Peng, Li Ming; Ding, Wen Jiang.Theoretical Investigation on Microstructure of the Novel 24R-type LPSO Phase in Mg₉₇Zn₁Y₂ Alloy.International Conference on Chemical Engineering and Advanced Materials, 2011-05-28 to 2011-05-30.

[11]Guo, Xingwu*; Wang, Shaohua; Yang, Haiyan; Peng, Liming; Ding, Wenjiang.Characterization of Ni-P/TiO₂ MMC coatings prepared by electroless plating process on Mg-Nd-Zn-Zr magnesium alloys.11^th International Conference in Asia of the International-Union-of-Materials-Research-Societies, 2010-09-25 to 2010-09-28.

[12]Fu, Penghuai*; Peng, Liming; Nie, J. F.; Jiang, Haiyan; Ma, Lan; Bourgeois, L..Ductility improvement of Mg-Nd-Zr cast alloy by trace addition of Zn.11^th International Conference in Asia of the International-Union-of-Materials-Research-Societies, 2010-09-25 to 2010-09-28.

[13]Wu, Y. J.*; Peng, L. M.; Zeng, X. Q.; Lin, D. L.; Ding, W. J.Formation of a Novel X Phase in Mg-Gd-Zn-Zr Alloy.7^th Pacific Rim International Conference on Advanced Materials and Processing, 2010-08-02 to 2010-08-06.

[14]Peng, L. M.*; Wang, Y. X.; Fu, P. H.; Ding, W. J.; Luo, A. A.; Verma, R.. Numerical Simulation and Process Development for Low Pressure Diecasting of Magnesium Alloy Wheels. 114^th Annual Metalcasting Congress, 2010-03-20 to 2010-03-23.

[15]Hu, Bin; Peng, Liming; Powel, Bob R.; Lukitsch, Michael J.; Sachdev, Anil K.. Dry Sliding Wear Behavior of AE44 Magnesium Alloy Reinforced with Saffil Alumina Fibers.Magnesium Technology Symposium 2010, 2010-02-14 to 2010-02-18.

[16]Hu, Bin; Peng, Liming; Powell, Bob R.; Sachdev, Anil K.. MECHANICAL PROPERTIES AND MICROSTRUCTURAL ANALYSIS OF AXJ530 MAGNESIUM ALLOY REINFORCED WITH ALUMINA FIBERS.Magnesium Technology Symposium 2010, 2010-02-14 to 2010-02-18.

[17]Zeng, Xiaoqin; Ding, Wenjiang; Wu, Yujuan; Peng, Liming.Precipitation Strengthening in Magnesium Alloys Containing Rare Earth Elements.Magnesium Technology Symposium 2010, 2010-02-14 to 2010-02-18.

[18]Chen, Bin; Zeng, Xiaoqin; Lin, Dongliang; Peng, Liming.Effect of extrusion temperature on the microstructure and mechanical properties of Mg₉₇Y₂Zn₁ alloy.Magnesium Technology Symposium 2009, 2009-02-15 to 2009-02-19.

[19]Wu, Yujuan; Zeng, Xiaoqin; Lin, Dongliang; Peng, Liming; Yuan, Guangyin; Ding, Wenjiang.Effects of solid solution heat treatment on the microstructures and mechanical properties of Mg_96.82Gd₂Zn₁Zr_0.18 alloy with the 14H-type LPSO structure.Magnesium Technology Symposium 2009, 2009-02-15 to 2009-02-19.

[20]Fan, L. K.; Peng, L. M.; Wang, R.; Dong, J.; Ding, W. J.Microstructures of the deforming zone in hot rolling AZ31 sheet .Magnesium Technology Symposium 2009, 2009-02-15 to 2009-02-19.

[21]Fu Penghuai; Peng Liming; Ma Lan; Jiang Haiyan; Zhai Chunquan.Microstructure and Mechanical properties of Extruded Mg-3Nd-0.2Zn-0.4Zr (wt. %) Alloy.Magnesium Technology Symposium 2009, 2009-02-15 to 2009-02-19.

[22]吳國華,付彭懷,彭立明等. 高性能鎂合金研究應用現(xiàn)狀與展望[C].2008中國鑄造活動周論文集.2008:41-46.

[23]常建衛(wèi),郭興伍,彭立明等. 250℃下時效時間對Mg-10Gd-3Y-0.4Zr稀土鎂合金腐蝕行為的影響[C].2008年全國腐蝕電化學及測試方法學術交流會論文摘要集.2008:82.

[24]Peng, Liming*; Du, Lin; Jin, Li; Wang, Qudong; Ding, Wenjiang.Anisotropy of the damping capacity of rolled Mg-0.4Zn-0.6Zr (ZK01) alloy.Magnesium Technology Symposium 2008, 2008-03-09 to 2008-03-13.

[25]Chang Jian-Wei; Guo Xing-Wu; Fu Peng-Huai; Peng Li-Ming; Ding Wen-Jiang.Relationship between heat treatment and corrosion behaviour of Mg-3.0%Nd-0.4%Zr magnesium alloy.International Conference of Nonferrous Materials (ICNFM), 2007-11-25 to 2007-11-30.

[26]Lin Jin-bao; Peng Li-ming; Wang Qu-dong; Zhou Yang; Ding Wen-jiang.Influence of solidification conditions on mechanical properties of Mg-10Gd-3Y-0.5Zr magnesium alloy.International Conference of Nonferrous Materials (ICNFM), 2007-11-25 to 2007-11-30.

[27]Wu, Y. J.; Lin, D. L.; Zeng, X. Q.; Peng, L. M.; Ding, W. J..Formation of a lamellar 14H-type long period stacking ordered structure in an as-cast Mg-Gd-Zn-Zr alloy.Conference on Syntactic and Composite Foams held with Engineering International Conference, 2007-08 to 2007-08.

[28]丁文江,彭立明,付彭懷等. 高性能鎂合金發(fā)展現(xiàn)狀與趨勢[C].第五屆中國有色合金及特種鑄造國際會議論文集.,2007:47-53.

[29]Fu P*; Peng L; Jiang H; Zhai C; Gao X; Nie J F.Zr-containing precipitates in Mg-3wtNd-0.2wtZn-0.4wtZr alloy during solutionTreatment at 540°C.2006 Beijing International Materials Week, 2006 BIMW - 2^nd International Conference on Magnesium, ICM 2006, 2006-06-25 to 2006-06-30.

[30]Ding, W. J.; Fu, P. H.; Peng, L. M.; Jiang, H. Y.; Zeng, X. Q.Study on the microstructure and mechanical property of high strength Mg-Nd-Zn-Zr alloy.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[31]Peng, Liming; Fu, Penghuai; Jiang, Haiyan; Zhai, Chunquan.Microstructure and mechanical properties of low pressure die cast AM50 magnesium alloy.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[32]Lin, Jinbao; Wang, Qudong; Peng, Liming; Zhou, Yang; Ding, Wenjiang.Effect of cooling rate on the microstructure and mechanical properties of ZK60 alloy.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[33]Zhang, Zhenyan; Peng, Liming; Zeng, Xiaoqin; Du, Lin; Ma, Lan; Ding, Wenjiang.Effects of extrusion on the mechanical properties and damping capacity of Mg-1.8Cu-0.5Mn alloy.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[34]Zhou, Yang; Peng, Liming; Wang, Qudong; Lin, Jinbao; Ding, Wenjiang.Influence of cooling rates on the dentrite morphology and hardness of the surface-chilled Mg-10Gd-3Y magnesium alloy.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[35]He, Shangming; Zeng, Xiaoqin; Peng, Liming; Guo, Xinwu; Chang, Jianwei; Ding, Wenjiang.Microstructure, mechanical properties, creep and corrosion resistance of Mg-Gd-Y-Zr(-Ca) alloys.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[36]Fu, Penghuai; Peng, Liming; Jiang, Haiyan; Zhai, Chunquan; Ga, X.; Nie, J. F. Zr-containing precipitates in Mg-3wt%Nd-0.2wt%Zn-0.4wt%Zr alloy during SolutionTreatment at 540 degrees C.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[37]Changa, Jianwei; Fu, Penghuai; Guo, Xingwu; Peng, Liming; Ding, Wenjiang.Effect of heat treatment on corrosion and electrochemical behaviors of Mg-3Nd-0.2Zn (wt. %) magnesium alloy.Beijing International Materials Week, 2006-06-25 to 2006-06-30.

[38]He, SM; Peng, LM; Zeng, XQ; Liu, LP; Wang, QD; Ding, WJ; Zhu, YP.Effects of variable La/Ce ratio on microstructure and mechanical properties of Mg-5Al-0.3Mn-1RE alloys.International Conference on Magnesium - Science, Technology and Applications, 2004-09-20 to 2004-09-24.

[39]Zeng, YW; Peng, LM; Mao, XM; Zeng, XQ; Ding, WJ.A new low GWP protective atmosphere containing HFC-152a for molten magnesium against ignition.International Conference on Magnesium - Science, Technology and Applications, 2004-09-20 to 2004-09-24.

[40]彭立明,曾小勤,朱燕萍等. 一種新型鎂合金的開發(fā)及其應用[C].2002年材料科學與工程新進展（上）——2002年中國材料研討會論文集.冶金工業(yè)出版社,2002:642-649.

[41]毛協(xié)民,彭立明,溫宏權等. 強度與導電兼顧的自生復合電車線[C].第四屆中國功能材料及其應用學術會議論文集.重慶儀表材料研究所,2001:1710-1713.

[42]毛協(xié)民,溫宏權,彭立明等. 自生復合高強度電車線的研究[C].第一屆國際機械工程學術會議論文集.機械工業(yè)出版社,2000:317.

[43]彭立明,鄒啟明,溫宏權等. 單晶連鑄技術的研究現(xiàn)狀與展望[C].第三屆中國功能材料及其應用學術會議論文集.《功能材料》編輯部,1998:422-424+432.

[44]彭立明,溫宏權,毛協(xié)民等. 單晶連鑄過程初始階段引晶速率的研究[C].第三屆中國功能材料及其應用學術會議論文集.《功能材料》編輯部,1998:425-428.

榮譽獎勵：

主要榮譽：

1．2018年，第四批國家“萬人計劃”科技創(chuàng)新領軍人才。

2．2017年，科技部創(chuàng)新人才推進計劃創(chuàng)新領軍人才。

3．2016年，國家重點研發(fā)計劃首席科學家。

4．2014年，上海市優(yōu)秀學術帶頭人。

5． 2011年，教育部新世紀優(yōu)秀人才。

6．2012年，國家工程研究中心先進工作者。

7．2007年，入選上海市啟明星人才計劃（A類）。

8．2005年，入選上海市教委青年優(yōu)秀后備人才。

主要獲獎：

1、 2017年，高性能鎂稀土合金材料及其關鍵應用技術，國防科學技術發(fā)明獎一等獎。

2、 2014年，高強耐熱鎂合金材料及其在航天航空領域應用技術開發(fā)，上海市技術發(fā)明獎一等獎，排名4。

3、 2011年，第12屆中國青年科技獎，中組部/中科協(xié)/人保部。

4、 2010年，上海市技術發(fā)明一等獎，控形控性一體化高強韌鎂稀土合金及其應用關鍵技術研究，排名1。

5、 2009年，含稀土高強度鑄造鎂合金及其制備方法（ZL200510030457.8），知識產(chǎn)權局中國優(yōu)秀專利獎，排名3。

6、 2009年，高強度鎂稀土合金及成型技術的研制，高等學校科學研究優(yōu)秀成果獎技術發(fā)明獎二等獎，排名3。

7、 2007年，高性能耐熱鎂合金及其在汽車中的應用，上海市技術發(fā)明一等獎，排名6。

8、 2006年，高強度鎂合金在國防工業(yè)中的應用研究，國防科學技術二等獎，排名4。

9、 2003年，阻燃鎂合金及其應用關鍵技術研究，國家科技進步二等獎,，排名6。

媒體報道：

從農(nóng)家娃到交大教授

——訪2011年啟明星（跟蹤）入選者彭立明

2011年對即將步入不惑之年的上海交大青年教師彭立明（見圖）而言是帶來好運的年份，這年中他入選上�？萍记嗄陠⒚餍牵ǜ櫍甑姿麡s獲第十二屆中國青年科技獎（該獎項由中組部、國家人保部和中國科協(xié)每兩年評選一次，每次入選者不超過100人），當年他還入選教育部“新世紀優(yōu)秀人才支持計劃”；再早一年的2010年，他以第一完成人獲得了上海市技術發(fā)明一等獎。以我多年采訪啟明星的經(jīng)驗，這些成績的取得者一定是一個有不一樣的經(jīng)歷和追求的人。希望了解這位交大教師的心愿促成了此次啟明星訪問。

（一）

一周前，我在交大閔行校區(qū)材料學院B樓和彭立明面敘。彭給我的第一印象很好，個子較高，談吐舉止有禮，他仔細聽了我對采訪的想法后很配合地應我的要求先做了自己家世和經(jīng)歷的介紹。1972年出生的彭立明是四川重慶人，他的爺爺奶奶、外公外婆一輩家境尚好，家里有人教書，外公是黃埔軍校的畢業(yè)生，外婆是小學教員；爺爺在解放前是一位私塾先生，解放后成份定富農(nóng)，而這一切到了1949年后就成了給個人和家庭帶來巨大麻煩的家庭出身問題，小彭父母這一輩因此受到了牽連，他們?nèi)以缭绲鼐瓦w居農(nóng)村務農(nóng)為生。但雖在農(nóng)村，彭家還是有重視讀書的傳統(tǒng)。小彭說他父母小時候的學習成績都很好，但因家境變遷，爺爺死于50年代末開始的大饑荒年代，彭父13歲綴學挑起養(yǎng)家的擔子，他干農(nóng)活時仍設法自學，后參加技校招考，考到全縣第一，因成份不好未能如愿。所以彭父的心愿就是自己的孩子今后一定要上學。

彭立明和小他六歲的弟弟從小在外公外婆家長大，他是78年上的小學，那時他的外公、外婆開始平反，但撥亂反正還剛剛開始。從小就因家庭成份受到另眼相待的彭家兄弟小時候沒人和他們玩，他們從小就懂得只能靠讀書靠自己爭氣來改變命運。彭立明至今感懷他小學的班主任王德芬老師：“王老師對家庭條件差、來自農(nóng)村的孩子都很關心，她知道我家的情況后，不但沒有歧視我，而且整個小學期間她一直關心我。由于我家離校很遠，中午不可能回家吃飯，小學五年幾乎每天中午都在她家吃飯。我們一個班級40個人有15人考上重點中學，她的三個小孩也都考上大學，家教也很好，給我們這些小孩子起了一個很好的榜樣�！迸砹⒚髡f后來他二十多年的求學過程中，教過他的老師很多，但令他印象最深的還就是這位小學的班主任王老師，至今只要回老家，他都會去看望王老師。

為了支持兩個孩子讀書，彭父外出打工，知道家境的小彭中學住讀6年期間非常節(jié)儉，一個星期就用一元錢，他每個月從家里挑糧到學校換糧票。

因為成績拔尖，加上班主任說了一句“上海交大不錯”，彭立明就填報了交大計算機計專業(yè)，后來被調劑到材料工程系的鑄造專業(yè)。當時不是出于本意，而被調劑到材料學院的學生不少。之所以說不是出于本意，一方面的原因也是當時的材料系在交大的地位不高，博士點也沒有。但畢竟是從農(nóng)村來的孩子，彭立明想得更多的還是要上好學，認真讀書是唯一出路�！敖Y果，讀著讀著就找到點感覺了”。

畢業(yè)時，本想早點就業(yè)的小彭因當時的就業(yè)形勢不太好，企業(yè)大多數(shù)效益不好，這樣就去考研。他選擇了去西安的西北工業(yè)大學而非在交大讀研，一方面的原因是覺得自己不是本地人（當時在上海的外地學生比例不高，校園里主要講的都是他聽不懂的上海話，讓他覺得要融入這個城市不易），另外很主要的是西北工業(yè)大學的鑄造專業(yè)是國內(nèi)最好的，該校的凝固技術國家重點實驗室出了三個院士。如此他就去了西安�！拔鞴ご蟮膶W風很好，當時交大學生中已經(jīng)出現(xiàn)了經(jīng)商的風氣，讀書已經(jīng)不太純粹了，但西安那里讀書風氣很好，自修的座位還得提前占位”。

但三年碩士的經(jīng)歷讓小彭以更理性的視角來比較西安和上海。他意識到比起上海，在人的整體素質、環(huán)境衛(wèi)生、講究規(guī)則和國際化程度等方面，西安還是有很大差距，另外從發(fā)展的角度看，上海的機會更多一些。這樣，他決定再回上海讀博。他考取了時任上海市長的上海大學徐匡迪院士的博士，徐老師雖政務繁忙，但他對自己名下的學生都會從課題方向上給予指點，提出要求，每年都會和自己的學生見一兩次面。為了方便徐老師，博士論文答辯一般就安排在市政府會議室。

（二）

博士畢業(yè)后的2000年，彭立明到了和一直有聯(lián)系的交大材料與工程學院的丁文江教授門下做博士后研究。彼時，丁教授正在申請籌建輕合金精密成型國家工程研究中心，中心很快就獲國家發(fā)改委批準，小彭正好參與了這個過程。他的博士后研究就主攻鎂合金。博士后出站小彭就留了下來一直干到現(xiàn)在。彭立明的正式入職生涯是從交大材料學院的輕合金精密成型國家工程研究中心起步，主要從事“先進鎂合金的材料設計與精密成型技術及應用”研究。十余年來，他先后承擔和參與了二十余項重要研究項目或課題，先后發(fā)表學術論文130余篇，獲得授權發(fā)明專利17項，他在這個中心從講師做到教授，現(xiàn)在還兼任了中心的主任助理和液態(tài)成型室的主任。

彭立明給我介紹了他們這個中心的使命和特色：“重點是針對鎂合金以及少量的鋁合金進行材料設計和精密成形工藝研究。所謂材料設計是根據(jù)不同的需求而對材料的組份作重新設計，譬如有些材料要求強度高，有些則要求韌性強，或耐磨性強，滿足這些要求要根據(jù)該性能對元素的不同比例要求，摻雜不同的元素，再經(jīng)過一定的工藝條件使之變成不同的組織。它們之間的關系是：材料的性能決定于材料的組織，組織決定于組份和加工參數(shù)�！北热�，大家通常的印象里，金屬鎂條是很容易燃燒的，但如果我們往鎂里摻雜少量的稀土、鈣、鍶等元素，就能很好的提高金屬鎂的抗燃燒性，甚至即使超過材料沸點也不起燃。彭立明告訴我，這方面的研究結果已經(jīng)在與國外的著名航空公司合作用于開發(fā)飛機上的航空座椅部件，民航非常關注的一個問題是安全性，燃燒是其重點。

說到中心近年來的一些有特色的工作，彭立明特別提到了他們這幾年利用稀土元素在材料改性方面的嘗試�！霸谠O計高強度、耐高溫、高韌性的材料方面，我們充分利用了稀土元素非常特殊的電子結構特點，稀土元素添加到鎂里面能形成很豐富的微觀組織。進一步我們再利用原子探針、透射電鏡等，搞清楚稀土元素在鎂里面的存在狀態(tài)，以及這些存在狀態(tài)（微結構）起了哪些作用，從而達以調控組織與性能的目的”。彭教授介紹說，稀土的電子結構使得它在很多地方有用途，在鋼鐵、鋁合金里，在電子材料中，甚至在肥料里，添加稀土都會形成新的性狀�，F(xiàn)在用的最多的是在磁性材料中，在軍事上的用途也很大。

（三）

從彭老師的介紹中，我知道是上海交大輕合金精密成型國家工程研究中心較早發(fā)現(xiàn)了稀土在鎂合金里有很大的用途，他們不僅發(fā)現(xiàn)的早，而且做得比較系統(tǒng)，他們對所有的稀土元素在鎂合金里的作用都做了系統(tǒng)研究，找出了比較有用的元素及其組合及相應的工藝，并且開發(fā)了稀土鎂合金的四種合金，而且都有專利。但是盡管如此，彭立明認為，稀土與鎂合金的作用機理方面還有不少需要進一步研究的課題。

彭立明說，除了材料改性，材料的成型技術（加工）也是他們中心的特色，“我們能把非常復雜的發(fā)動機缸體造出來，這除了所用材料很關鍵外，還涉及到合理的成型技術，所開發(fā)的V6型發(fā)動機缸體的制造模具是由37套模芯組織而成，必須充分考慮這么多的模芯的結構設計與組合順序以及金屬液體在由這些模芯所構成的復雜型腔中的流動行為和凝固順序。成型技術包括液態(tài)成型和固態(tài)成型。我們的加工技術很有特色，在低壓鑄造、高壓鑄造、擠壓鑄造、等溫擠壓等方面，我們都有很好的技術創(chuàng)新”。

訪談中，彭立明多次提到他的導師丁文江教授領導的輕合金精密成型國家工程研究中心這個團隊，目前該團隊內(nèi)教師編制25人，研究生70余人，還有外聘的10位工程師，中心有7個研究室（7個研究方向）。在彭立明看來，他們這個中心是一個真正意義上的團隊，是一個目標明確、大家都有事干、非常和諧的團隊。大家的共同目標就是把工程中心建成國際上最具影響力的鎂合金材料研究團隊和技術創(chuàng)新平臺之一。

由于時間關系，關于這個團隊的一些特色我們那天沒有進一步展開，但我在采訪前看了該中心的產(chǎn)品陳列室，而且我在四年多前曾經(jīng)采訪過該中心的另一位啟明星（跟蹤）獲得者曾小勤，曾那時陪我看了他們位于松江的中心研發(fā)加工基地，再加上我也有幸認識該中心的創(chuàng)辦者丁文江教授。以這樣的有限接觸和了解，盡管不能說我對這個中心有很多了解，但是從他們這個團隊成員的素質，從他們源源不斷的成果產(chǎn)出，不僅是一篇篇高質量論文，更有解決重大工程和關鍵設備急需的新材料和實現(xiàn)這些新材料的工藝創(chuàng)新，我相信每一個去過該中心產(chǎn)品陳列室的人會認同一點，這是一個立于技術前沿、能解決問題的團隊，這種既能頂天又能立地的團隊是目前我們相對最緊缺的。

關于這個團隊的情況希望今后有機會在深入了解的基礎上再給大家披露。這里也預祝彭教授能在自己鐘愛的研發(fā)崗位上作出更多的貢獻。

文章來源：《世界科學》 2012年06期