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教工名录

陈兴品

系所:材料科学系

职称:教授

职务:

学位:博士

邮箱:[email protected]

电话:

地址:

学习工作经历

2011.09--至今  bob综合体育投注材料学院 教授(破格),博士生导师

2007.09--2011.08 bob综合体育投注材料学院 副教授

2008.11--2008.12 法国Ecole de Mines, Saint Etienne, Visiting Scientist.

2003.04--2003.11 丹麦Risø National LaboratoryGuest Scientist.

2003.08--2003.09 德国同步辐射中心(DESY BW5), Guest Scientist.

2000.03--2004.07 清华大学材料系 博士

1995.09--1998.07 福州大学材料学院 硕士

社会兼职

国家科学技术奖评审组专家、教育部科学技术奖评审专家、中国材料研究学会会员、中国体视学学会会员、bob综合体育投注-挪威科技大学联合研究中心成员。担任多家国际期刊审稿人。


主讲课程

本科生课程: 《材料科学基础》、《工程材料》、《创新能力培养》、《新生研讨课》

研究生课程:《材料科学理论》、《汽车材料科学与工程基础》


主要研究方向

金属材料塑性变形、回复再结晶及织构控制;

新型高性能钢铁材料;

铝合金新材料与新工艺;

高温超导材料;

科研项目

主持和参研国家863项目、“973”计划项目、国家自然科学基金项目在内的10多项国家级科研项目


论文及专著

[1] P. Ren; X.P. Chen*; C.Y. Wang; Y.X. Zhou; W.Q. Cao; Q. Liu; Evolution of microstructure, texture and mechanical properties of Fe–30Mn–11Al–1.2C low-density steel during cold rollingMater. Charact. 2021, 174: 111013

[2] J. Xie, X.P. Chen*, L. Mei, G.J. Huang, Q. Liu, Investigation of the hardening behavior during recrystallizationJ. Alloys Comp. 2021, 859: 157807

[3] L.X. Wang, X.P. Chen*, T.H. Luo, H.T. Ni, L. Mei, P. Ren, Q. Liu, Y.F. Ding, L.J. Zhao, Effect of cross cold rolling and annealing on microstructure and texture in pure nickel, Rev. Adv. Mater. Sci. 2020, 59: 252-263

[4] X.P. Chen*, D. Chen, H.F. Sun, L.X. Wang, D. Shang, Evolution of microstructure and texture during cold rolling and high-temperature annealing in Ni-5 at% W substrate for coated conductor. Rare Met. 2020, 39(8): 928-935  

[5] F. Yu, X.P. Chen, H.F. Xu, H. Dong, Y.Q. Weng, W.Q. Cao, Current Status of Metallurgical Quality and Fatigue Performance of Rolling Bearing Steel and Development Direction of High-End Bearing Steel, Acta Metallurgica Sinica, 2020, 56(4): 513-522

[6] J. Xie, X.P. Chen*, L. Mei, P. Ren, G.J. Huang, Q. Liu, Multifractal analyses of serrated flow in friction stir processed Al–Mg-Sc alloy, Mater. Sci. Eng. A, 2020, 786: 139436

[7] P. Ren; X.P. Chen*; Z.X. Cao; L. Mei; W.J. Li; W.Q. Cao*; Q. Liu; Intragranular brittle precipitates improve strain hardening capability of Fe-30Mn-11Al-1.2C low-density steelMater. Sci. Eng. A, 2020, 775: 138984.

[8] L. Mei, X.P. Chen*, P. Ren, Y.Y. Nie, G.J. Huang, Q. Liu, Effect of warm deformation on precipitation and mechanical properties of a cryorolled Al-Zn-Mg-Cu sheet, Mater. Sci. Eng. A, 2020, 771: 138608

[9] L.X. Wang; X.P. Chen*, W. Xie, P. Ren, L. Mei, Effect of Strain Path Change on Microstructure and Texture in Nickel During Cold Rolling and Annealing, Rare Metal Materials and Engineering, 2019, 48(9): 3022-3028

[10] X.P. Chen*, W.J. Li, P. Ren, W.Q. Cao, Q. Liu, Effects of C Content on Microstructure and Properties of Fe-Mn-Al-C Low-Density Steels, Acta Metallurgica Sinica, 2019, 55(8): 951-957

[11] P. Ren, X.P. Chen*, Z.X. Cao, L. Mei, W.J. Li, W.Q. Cao, Q. Liu, Synergistic strengthening effect induced ultrahigh yield strength in lightweight Fe-30Mn-11Al-1.2C steel, Mater. Sci. Eng. A, 2019, 752: 160-166

[12] L. Mei, X.P. Chen*, G.J. Huang, Q. Liu, Improvement of mechanical properties of a cryorolled Al-Mg-Si alloy through warm rolling and aging, J. Alloys Comp. 2019, 777: 259-2630

[13] X. P. Chen*, D. Chen, H.F. Sun, L.X. Wang, Effects of cold rolling reduction and annealing temperature on microstructure and texture evolution of Cu-44%Ni alloy, Rare Metal Materials and Engineering, 2018, 47(7): 1958-1964

[14] X.P. Chen*, S. Li, L. Mei, P. Ren, Q. Liu, Excellent combination of strength and ductility of Al-1.2Mn alloy with multi-scale lamellar structure, Mater. Sci. Eng. A, 2018, 729: 458-465

[15] X.P. Chen*, L. Mei, S. Li, L.M. Shang, Effects of homogenisation treatment on microstructure and grain refinement of Al-1.2Mn alloy, Mater. Sci. Tech.2018, 34(4): 493-501

[16] X.P. Chen*, Y.P. Xu, P. Ren, W.J. Li, W.Q. Cao, Q. Liu, Aging hardening response and β-Mn transformation behavior of high carbon high manganese austenitic low-density Fe-30Mn-10Al-2C steel, Mater. Sci. Eng. A, 2017, 703: 167-172

[17] X.P. Chen*, H.F. Sun, D. Chen, L.X. Wang, Q. Liu, On recrystallization texture and magnetic property of Cu-Ni alloysMater. Charact., 2016, 121: 149-156

[18] L.X. Wang, X.P. Chen*, D. Chen, H.F. Sun, Q. Liu, Effect of preferential orientation on the annealing twins during the low temperature treatment in nickel, Mater. Sci. Eng. A, 2016, 676: 48-55

[19] X.P. Chen*, X.G Li, S. Li, Q. Liu, Continuous recrystallization of commercial Al-1.2 wt.%Mn alloy produced by thermomechanical processingMater. Lett, 2016, 180: 101-104

[20] X.P. Chen*, L. Mei, D. Chen, Z.L. Bao, Q. Liu, The effect of initial aging treatment on the microstructure and mechanical properties of cryorolled 6016 Al alloy, Mater. Sci. Eng. A, 2016, 667: 311-316

[21] X.P. Chen*, X.G. Li, M. Liu, B. Wang, Q. Liu, Bi-2223 grain growth in Ag/Ni composite-sheathed tapes sintered at different oxygen partial pressures, Phys. Status Solidi A 2015, 212(8): 1830-1835

[22] X.P. Chen*, L.F. Li, H.F. Sun, L.X. Wang, Q. Liu, Studies on the evolution of annealing twins during recrystallization and grain growth in highly rolled pure nickel, Mater. Sci. Eng. A, 2015, 622: 108-113

[23] X. P. Chen*, M. Liu, L. Mei, Q. Liu, Study of inhomogeneous distribution of Bi-2223 phase in Ag/Ni composite-sheathed tapes, Ceram. Int. 2014, 40(7): 9835-9839

[24] X.P. Chen*, L.X. Wang, R. Xiao, X.Y. Zhong, G.J. Huang, Q. Liu, Comparison of annealing on microstructure and anisotropy of magnesium alloy AZ31 sheets processed by three different routes, J. alloys comp. 2014, 604: 112-116

[25] X.P. Chen*, M. Liu, L.M. Shang, L. Mei, Q. Liu, Effects of heating rate on the phase and microstructure evolution in Bi-2223/Ag/Ni superconducting tapes, Ceram. Int. 2014, 40(5): 7293-7296

[26] X.P. Chen*, X. Chen, J.P. Zhang, Q. Liu, Effect of initial cube texture on the recrystallization texture of cold rolled pure nickel, Mater. Sci. Eng. A, 2013, 585: 66-70

[27] X. P. Chen*, X.W. Yu, M.Y. Li, H.B. Sun, Q. Liu, Phase and Texture Evolution of Ag/Ni Composite-Sheathed Bi-2223 Tapes with Different Thickness, J Supercond Nov Magn, 2013, 26(2): 333-336

[28] X.P. Chen*, X.W. Yu, M. Liu, H.B. Sun, J. Zheng, Q. Liu, Effects of Controlled Over-Pressure Sintering on the Critical Current and Mechanical Properties of Bi-2223/Ag Tape, Rare Metal Materials and Engineering, 2013, 42(3): 607-610

[29] X. P. Chen*, X.W. Yu, M. Liu, M.Y. Li, H.B. Sun, Q. Liu, Effect of Strain Ways on the Micro-Crack Formation and Critical Current of Bi-2223/Ag Superconducting Tapes, Rare Metal Materials and Engineering, 2012, 41(7): 1206-1210  

[30] X.P. Chen*, X.W. Yu, M. Liu, M.Y. Li, H.B. Sun, Q. Liu, Fabrication and Properties of Ag–Ni Bimetallic Sheathed (Bi,Pb)-2223 Tapes, J Supercond Nov Magn, 2012, 25(5): 1501-1507

[31] X.P. Chen*, D. Shang, X. Chen, Y. B. Ji, P. Ji, C.S. Li, Q. Liu, Effect of Annealing Ways on the Formation of Cube Texture in Ni-5at% W Substrates for YBCO Coated Conductors, Rare Metal Materials and Engineering, 2011, 40(3): 322-324

[32] X.P. Chen*, X.W. Yu, J.P. Zhang, M.Y. Li, H.B. Sun, Q. Liu, Growth kinetics study of the (Bi,Pb)2Sr2Ca2Cu3O10 grains in Ag/Ni composite-sheathed tapes, Solid State Sciences 2011, 13(12): 2165-2171

[33] X.P. Chen*, X. W. Yu, R. Xiao, M. Y. Li, Z. Han, Critical current enhancement in Bi-2223/Ag superconducting tapes by controlling its first sintering process, J. Alloys Comp. 2011, 509(3): 1090-1093

[34] X.P. Chen*, X. W. Yu, M. Y. Li, Q. Liu, Z. Han, Effects of the Cooling Rate on the Microstructure and Properties of (Bi,Pb)-2223/Ag Tapes Rare Metal Materials and Engineering, 2011, 40(4): 737-740

[35] X. P. Chen*, J.-C. GrivelM.Y. Li, Q. Liu, Z. Han, N. H. Andersen and J. Homeyer, Influence of Pb-rich phases of precursor powder on microstructural evolution in the silver-sheathed (Bi,Pb)2Sr2Ca2Cu3Ox superconducting tapes Materials Chemistry and Physics 2010, 123: 747-751

[36] X.P. Chen*, D. Shang, R. Xiao, G. J. Huang, Q. Liu, Influence of rolling ways on the microstructure and anisotropy of AZ31 alloy sheet, Trans. Nonferrous Met. Soc. China, 2010, 20: 589-593



专利

授权国家发明专利:

1. 韩征和;李明亚;陈兴品;一种氧化物材料氧化还原反应的分析方法,2004-12-29,中国,ZL03100010.X

2. 陈兴品;李明亚;铋系高温超导带材及其制备方法,2011-04-06,中国,ZL200910103046.5

3. 陈兴品;李明亚;高性能铋系高温超导带材及其制备方法,2010-10-27,中国,ZL200910103047.X

4. 陈兴品;余晓伟;李明亚;瞿体明;同心圆型结构的铋系高温超导线材或带材及制备方法,2012-10-03,中国,ZL ZL 201010281014.7

5. 陈兴品;林振霞;肖睿;孙灿;陈雪;尚都;刘庆;一种细化镁合金板材晶粒的方法,2012-11-07,中国,ZL201010549291.1

6. 陈兴品;杨梦娟;李龙飞;陈雪;刘庆;一种低成本高立方织构含量镍基带的制备方法,2015-04-08,中国 ZL201310135732.7

7. 陈兴品; 李晓光; 李思; 陈丹; 孙洪福; 刘庆; 一种细化铝合金晶粒的形变热处理方法, 2017-7-14,中国,ZL201610017386.6.

8. 陈兴品; 梅霖; 任平; 李思; 黄光杰; 刘庆; 一种提高铝合金轧制板材力学性能的形变热处理方法, 2020-4-21,中国,ZL201711375785.0.

9. 陈兴品; 任平; 梅霖; 聂盈盈; 周云霄; 曹文全; 刘庆; 一种铁锰铝碳系奥氏体低密度钢的热处理方法,2020-12-22,中国,ZL201910676713.2


表彰及奖励

1. 国家科学技术进步奖二等奖高性能铋系高温超导长带材的研制与开发”(2006)

2. 北京市科学技术奖一等奖 “Bi系高温超导线材的研制及产业化技术攻关”(2004)


科研团队

形变金属与微结构



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