个人简介
受教育经历:
1980.09-1984.07, 东北重型机械学院, 金属学及热处理专业, 学士学位;
1987.09-1990.03, 哈尔滨工业大学, 金属材料及热处理专业, 硕士学位;
1996.09-2000.02, 东北大学, 材料与冶金学院,材料学专业, 博士学位;
工作经历:
1984.09-1987.07, 佳木斯大学材料学院,助教;
1990.03-1996.07, 佳木斯大学材料学院,讲师, 副教授;
2000.03-2002.02, 大连理工大学材料学院,博士后;
2002.03-2007.12, 大连理工大学材料学院,副教授;
2002.03-2003.05, 台湾中山大学材料研究所,博士后;
2006.02-2006.09, 台湾中山大学材料研究所,博士后;
2008.08-2009.08, 韩国材料研究所(KIMs),Brain-pool研究员;
2018.03-2018.04, 法国洛林大学织构与材料应用国家实验室(LEM3),访问学者;
2008.01 - 现在, 大连理工大学材料学院,教授,博士生导师
近期论文
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[1]王文文.退火对冷轧Al0.2CoCrFe2Ni高熵合金组织和力学性能的影响[J],金属热处理,2021,45(11):132-138
[2]郝胜智.强流脉冲电子束辐照冷轧纯铜形成表面纳米晶层[A],2006北京国际材料周暨中国材料研讨会,2022,401-406
[3]齐民.强磁场对Fe65Co10Nd8B17非晶合金薄带晶化行为的影响[J],功能材料,2022,1:35-36,39
[4]王开东.搅拌摩擦加工技术制备Ti颗粒增强AZ31镁基复合材料[J],中国有色金属学报,2022,3:418-423
[5]常丽丽.晶粒尺寸及织构对热挤压AZ31镁合金室温压缩变形行为的影响[A],第六届全国材料科学与图像科技学术会议,2022,317-320
[6]宫长伟.时效处理NiTi合金的相变研究[A],2005年全国电子显微学会议,2022,Vol.24:2
[7]宫长伟.时效处理NiTi合金的相变研究[J],电子显微学报,2022,24(4):302-303
[8]宋宇.涂层导体用Ni4WV合金基带的成分与织构研究[J],稀有金属与硬质合金,2022,45(6):31
[9]于凤云.深冲IF钢再结晶{111}纤维织构形成机制探讨[J],材料科学与工艺,2022,5:724-727
[10]刘晓鹏.热/强磁场耦合时效对富镍Ti-Ni形状记忆合金相变行为的影响[J],中国有色金属学报,2022,12:2005-2009
[11]周德智.热挤压AZ31镁合金单向压缩变形的应变硬化行为[J],中国有色金属学报,2022,5:1128-1135
[12]Song, Linghui.Detwinning-related Bauschinger effect of an extruded magnesium alloy AZ31B[J],MATERIALS CHARACTERIZATION,2022,148:63-70
[13]Wu, Baolin.Effect of cyclic frequency on uniaxial ratcheting behavior of a textured AZ31B magnesium alloy ...[J],MATERIALS SCIENCE AND ENGINEERING A STRUCTURAL MATERIALS PROPERTIES MICROST,2022,795
[14]王轶农.Effect of Al on microstructure and performance in CoCrFeCuAlx high entropy alloys[A],2014中国材料年会,2022
[15]Sun, M.-Y..Effect of electron beam melting on carbide of high speed steel [电子束熔炼对高速钢碳化物的影响][J],Kang T'ieh/Iron and Steel,2022,56(3):103-110
[16]Zhang, G. J..Effect of Fe on microstructure and properties of AlCoCrFexNi (x=1.5, 2.5) high entropy alloy co...[J],INTERMETALLICS,2022,119
[17]游小刚.Effect of solution heat treatment on microstructure and electrochemical behavior of electron be...[J],JOURNAL OF ALLOYS AND COMPOUNDS,2022,741:792-803
[18]游小刚.Effect of solution heat treatment on the precipitation behavior and strengthening mechanisms of...[J],MATERIALS SCIENCE AND ENGINEERING A STRUCTURAL MATERIALS PROPERTIES MICROST,2022,689:257-268
[19]Gong, Chang-Wei.Effect of thermal cycling and pre-deformation on transformation behavior in Ni50Ti45Ta50 shape me...[J],Gongneng Cailiao/Journal of Functional Materials,2022,35(5):571-572+575
[20]Liu Xiaopeng.Effects of heat treatment on shape-setting and non-linearmechanical properties of Nitinol Stent...[A],International Conference on Smart Materials and Nanotechnology in Engineering,2022,6423:N4233-N4233
[21]You, Qifan.Evaporation behavior of Ni, Cr and Fe in Inconel 718 superalloy during electron beam smelting[J],真空,2022,135:135-141
[22]Niu, Shaoqiang.Evaporation for element Al in K417 Ni-based superalloy during electron beam remelting[J],VACUUM,2022,187
[23]Zheng, Bin.Extended Dislocations in Plastically Deformed Metallic Nanoparticles[J],Nanomaterials and Nanotechnology,2022,6(1)
[24]高健.Facile synthesis of TiO2/WO3 nanocomposites and the electrochemical lithiation/delithiation activ...[J],JOURNAL OF MATERIALS SCIENCE,2022,56(26):14505-14517
[25]王轶农.Formation Mechanisms of Basal Texture in AZ31 Magnesium alloys during hot rolling[A],The 2nd International Conference on Materials Engineering (ICMEN2014),2022
[26]Ma, Ru.Grain refinement and mechanical properties improvement of AZ31 Mg alloy sheet obtained by two -...[J],MATERIALS SCIENCE AND ENGINEERING A STRUCTURAL MATERIALS PROPERTIES MICROST,2022,691:81-87
[27]Wu, Baolin.Grain refinement of an Al-Cu-Mg alloy by microalloying and common thermo-mechanical treatment[A],Beijing International Materials Week,2022,546-549:917-+
[28]王轶农.Grain size and Texture Effect on Compression Behavior of Hot-extruded Mg-3Al-1Zn[J],MATERIALS CHARACTERIZATION,2022,60(4):991-994
[29]Chang, L. L..Grain size and texture effect on compression behavior of hot-extruded Mg-3Al-1Zn alloys at room...[J],MATERIALS CHARACTERIZATION,2022,60(9):991-994
[30]王轶农.Grain size dependence of yield strength in randomly textured Mg-Al-Zn alloy[J],MATERIALS TRANSACTIONS,2022,48(2):184-188
[31]王轶农.FSP制备Mg-AZ31/ZrO_2颗粒增强镁基复合材料的组织与力学性能[A],第十一届中国体视学与图像分析学术会议,2022,1
[32]王轶农.Influence from extrusion parameters on high strain rate and low temperature superplasticity of AZ...[A],Thermec 2003 Processing and Manufacturing of Advanced Materials,2022,426-432(3):2655-2660
[33]王轶农.Influence of initial orientation on compression mechanical properties in a hot-extruded AZ31 magn...[A],The 2012 International Conference on Materials Science and Engineering(CMSE-2012),2022
[34]Zhao, Yi-Quan.Influences of Asymmetric Reduction Rolling on the Microstructure and Mechanical Properties of A...[J],Acta Metallurgica Sinica,2022,31(7):673-680
[35]王轶农.Improvement of ductility in Mg-AZ31 alloy sheet fabricated by asymmetric hot extrosion[A],The 3rd Asian Symposium on Magnesium Alloys,2022,240-240
[36]王玲.Improvement of Mechanical Properties of Magnesium Alloy ZK60 by Asymmetric Reduction Rolling[J],Acta Metallurgica Sinica,2022,31(1):63-70
[37]Tian, Quanwei.High temperature deformation mechanism and microstructural evolution of relatively lightweight ...[J],INTERMETALLICS,2022,119
[38]gaojian.Interface evolution in the platelet-like SiC@C and SiC@SiO2 monocrystal nanocapsules[J],纳米研究 英文版,2022,10(8):2644-2656
[39]郑斌.Landau理论研究TiNi顺磁合金热/强磁场耦合下的马氏体相变[J],金属学报,2022,45(1):37-42
[40]李毅.The denitrification behavior during electron beam smelting of FGH4096 alloy[J],VACUUM,2022,189