基本信息
田艳中 男 中国科学院金属研究所
电子邮件: yztian@imr.ac.cn
通信地址: 沈阳市沈河区文化路72号
邮政编码: 110016
电子邮件: yztian@imr.ac.cn
通信地址: 沈阳市沈河区文化路72号
邮政编码: 110016
研究领域
1、金属材料强韧化机制
2、金属材料疲劳性能优化
招生信息
招生专业
080501-材料物理与化学
招生方向
金属强韧化与疲劳性能优化
教育背景
2006-09--2012-07 中国科学院金属研究所 工学博士2002-09--2006-07 天津大学 工学学士2002-09--2006-07 南开大学 经济学学士(双学位)
工作经历
工作简历
2015-01~现在, 中国科学院金属研究所, 所优秀学者(副研究员)2012-10~2014-12,日本京都大学, JSPS研究员及项目助理教授
社会兼职
2017-02-15-今,Scientific Report编委,
专利与奖励
奖励信息
(1) SYNL青年创新奖, 二等奖, 研究所(学校), 2015(2) 日本学术振兴会奖研金(JSPS fellowship), 其他, 2012(3) 师昌绪奖学金, 二等奖, 研究所(学校), 2012
出版信息
发表论文
(1) A novel ultrafine–grained Fe–22Mn–0.6C TWIP steel with superior strength and ductility, Materials Characterization, 2017, 第 1 作者(2) Negative to positive transition of strain rate sensitivity in Fe-22Mn-0.6 Cx (Al) twinning-induced plasticity steels, Materials Science and Engineering: A, 2017, 第 3 作者(3) Mechanism of Dynamic Formation of Ultrafine Ferrite Grains during High Temperature Processing in Steel, Advanced Engineering Materials, 2017, 第 3 作者(4) Novel thermomechanical processing methods for achieving ultragrain refinement of low-carbon steel without heavy plastic deformation, Materials Research Letters, 2017, 第 3 作者(5) High-cycle fatigue properties and damage mechanisms of pre-strained Fe-30Mn-0.9 C twinning-induced plasticity steel, Materials Science and Engineering: A, 2017, 第 7 作者(6) Stacking fault energy of C-alloyed steels: The effect of magnetism, Acta Materialia, 2017, 第 5 作者(7) Combination of dynamic transformation and dynamic recrystallization for realizing ultrafine-grained steels with superior mechanical properties, Scientific Reports, 2016, 第 3 作者(8) Intrinsic high cycle fatigue behavior of ultrafine grained pure Cu with stable structure, Science China Materials, 2016, 第 4 作者(9) Exceptional high fatigue strength in Cu-15at.% Al alloy with moderate grain size, Scientific Reports, 2016, 通讯作者(10) Revealing the deformation mechanisms of Cu–Al alloys with high strength and good ductility, Acta Materialia, 2016, 第 1 作者(11) Ductility Sensitivity to Stacking Fault Energy and Grain Size in Cu–Al Alloys, Materials Research Letters, 2016, 第 1 作者(12) Different strain rate sensitivities between Fe-22Mn-0.6 C and Fe-30Mn-3Si-3Al twinning-induced plasticity steels, Materials Science and Engineering: A, 2016, 通讯作者(13) Significant contribution of stacking faults to the strain hardening behavior of Cu-15% Al alloy with different grain sizes, Scientific Reports, 2015, 第 1 作者(14) Optimizing strength and ductility in Cu–Al alloy with recrystallized nanostructures formed by simple cold rolling and annealing, Journal of Materials Science, 2014, 第 1 作者(15) Enhanced Strength and Ductility in an Ultrafine-Grained Fe-22Mn-0.6 C Austenitic Steel Having Fully Recrystallized Structure, Metallurgical and Materials Transactions A, 2014, 第 1 作者(16) Achieving homogeneity in a two-phase Cu–Ag composite during high-pressure torsion, Journal of Materials Science, 2013, 第 1 作者(17) Stability of interfaces in a multilayered Ag–Cu composite during cold rolling, Scripta Materialia, 2013, 第 1 作者(18) Formation of nanostructure and abnormal annealing behavior of a Cu–Ag–Zr alloy processed by high-pressuretorsion, Materials Science and Engineering: A, 2013, 第 1 作者(19) Microstructures, strengthening mechanisms and fracture behavior of Cu–Ag alloys processed by high-pressure torsion, Acta Materialia, 2012, 第 1 作者(20) Bulk eutectic Cu–Ag alloys with abundant twin boundaries, Scripta Materialia, 2012, 第 1 作者(21) Strain hardening behavior of a two-phase Cu–Ag alloy processed by high-pressure torsion, Scripta Materialia, 2011, 第 1 作者(22) Comparison of microstructures and mechanical properties of a Cu–Ag alloy processed using different severe plastic deformation modes, Materials Science and Engineering: A, 2011, 第 1 作者(23) Microstructural evolution and mechanical properties of a two-phase Cu–Ag alloy processed by high-pressure torsion to ultrahigh strains, Acta Materialia, 2011, 第 1 作者(24) Effects of Route on Microstructural Evolution and Mechanical Properties of Cu-8 Wt Pct Ag Alloy Processed by Equal Channel Angular Pressing, Metallurgical and Materials Transactions A, 2010, 第 1 作者(25) Direct observations of microstructural evolution in a two-phase Cu–Ag alloy processed by high-pressure torsion, Scripta Materialia, 2010, 第 1 作者(26) Shear banding observations in Cu–16wt.% Ag alloy subjected to one-pass equal channel angular pressing, Scripta Materialia, 2010, 第 1 作者(27) Cyclic deformation and fatigue cracking behaviors of Cu–28wt% Ag binary alloy, Philosophical Magazine, 2009, 第 1 作者(28) Microstructures and tensile deformation behavior of Cu–16wt.% Ag binary alloy, Materials Science and Engineering: A, 2009, 第 1 作者
科研活动
科研项目
( 1 ) 铜银合金的强度、塑性及电导率优化机制研究, 主持, 国家级, 2016-01--2018-12( 2 ) 铜铝合金高周疲劳性能优化机制研究, 主持, 市地级, 2017-01--2017-12( 3 ) 低层错能金属材料强韧化机制研究, 主持, 市地级, 2015-01--2019-01( 4 ) 低层错能金属材料的拉伸及疲劳性能优化机制研究, 参与, 部委级, 2017-04--2020-03
参与会议
(1)Tensile deformation mechanisms of Cu-Al alloys with high strength and good ductility 2016-05-29(2)Tensile strength and fracture behavior of Al-Cu alloy subjected to ECAP 2015-09-11(3)Strain hardening behavior of Cu-Al alloy with a low stacking fault energy 2014-09-01(4)Optimizing strength and ductility in Cu-Al alloy with fine homogeneous recrystallized structure by simple cold rolling and annealing 2014-02-16