学习工作经历

2011.09--至今  重庆大学材料学院 教授（破格），博士生导师

2007.09--2011.08 重庆大学材料学院 副教授

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

2003.04--2003.11 丹麦Risø National Laboratory，Guest 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、重庆大学-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 rolling，Mater. Charact. 2021, 174: 111013

[2] J. Xie, X.P. Chen*, L. Mei, G.J. Huang, Q. Liu, Investigation of the hardening behavior during recrystallization，J. 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 steel，Mater. 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 alloys，Mater. 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 processing，Mater. 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. Grivel，M.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)₂Sr₂Ca₂Cu₃O_x 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年)

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年)

科研团队

形变金属与微结构