固体力学领域内固体变形、损伤与破坏的非线性力学性质，研究方向为纳米材料与结构的物理力学。

研究兴趣包括但不限于：

(1)  航空用合金界面/组织结构调制力学性能

为提升材料的性能，自公元前4000年青铜时代起，人类就提出了合金化概念。至今，添加的合金化元素日益增多，但材料性能提升趋缓。添加容易分离难的现状产生大量合金废料，给材料的回收利用和可持续发展带来巨大挑战。在少添加甚至不添加合金化元素的前提下，用材料内部本身就有的纳米尺度界面结构调制材料的力学性能，开辟了提升材料性能的新蹊径。

(2)  陶瓷的室温塑性

宏观尺度上，陶瓷强度高但缺乏延性，承受不到0.2%的弹性变形即发生脆性破坏。在纳米尺度，晶粒间非晶层及相变赋予陶瓷塑性变形能力。

                                                                        SiC陶瓷纳米线中晶粒间非晶层主导的塑性变形机制

                                                                             ZnO纳米线/柱中相变主导的塑性变形机制

研究方法：

TEM, SEM, EBSD等组织结构表征

原位、宏观力学实验

密度泛函、分子动力学、有限元

每年招收：

硕士研究生名，博士研究生x名(尚未取得资格)，博士后名    

080102-固体力学

纳米材料与结构的物理力学

(2)王千一：w15953743095@163.com     协助蒋敏强研究员指导 

2024级硕士

成就

奋斗中......

(1)张子妍：zhangziyan@imech.ac.cn      协助蒋敏强研究员指导 

2023级硕士

去向

已签中石化，预期2026年6月毕业

成就

以第一作者身份在Computational Materials Sciences上发表SCI论文1篇。

(1) 张志伟：zhangzhiwei@lzu.edu.cn  协助白以龙院士指导

2019级普博，2019年9月入学，2022年6月毕业

去向：

兰州大学土木工程与力学学院    萃英博士后，2024年9月转青年研究员(副高) 

成绩： 

以第一作者身份在International Journal of Mechanical Sciences (IJMS), International Journal of Solids and Structures (IJSS), Materials Characterization, Physical Chemistry Chemical Physics (PCCP), Transactions of Nonferrous Metals Society of China, Materials Today Communications, Computational Materials Science上发表SCI论文7篇。 

获奖：

（7）2022年06月：2022年中国科学院院长特别奖(中科院在学研究生最高奖励)

（6）2022年04月：2022年力学研究所“郭永怀奖学金”一等奖

（5）2021年12月：2021年力学研究所研究生学术论坛二等奖

（4）2021年11月：2021年博士研究生国家奖学金 

（3）2021年04月：中国科学院大学“三好学生”荣誉称号 

（2）2021年01月：北京力学会第二十七届学术年会优秀论文奖 

（1）2020年12月：LNM 2020年学术年会研究生科研成果一等奖

2005-09--2010-05   北京航空航天大学   凝聚态物理专业硕士转提前攻博，理学博士
1995-09--1999-06   兰州大学   理论物理专业，理学学士

2015-12~今               中国科学院力学研究所,                   副研究员

2017-03~2017-09     Georgia Institute of Technology   访问学者

2016-09~2016-12     香港城市大学                                 Research Fellow

2014-05~2014-08     香港城市大学                                 Research Fellow

2013-07~2013-10     香港城市大学                                 Research Fellow

2013-03~2015-12     中国科学院力学研究所                   助理研究员

2010-10~2011-10     Curtin University                          访问学者

2010-05~2013-03     北京航空航天大学                          博士后

2009-02~2009-08     香港大学                                        Research Assistant II

2003-10~2005-07     西安工程大学                                 讲师

1999-06~2003-09     中国人民解放军西安通信学院         助教

3.    2024  力学所实现珠光体钢冲击能量耗散的定量表征

2.    2022  张志伟获中国科学院院长特别奖

1.    2012  陶瓷纳米线：脆性还是延性？什么在控制？

[5]  Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Simultaneously achieving strength and ductility in Ni3Al nanowires with superlattice intrinsic stacking faults”, International Journal of Mechanical Sciences, 215 (2022), 106953

[4]  Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Interaction between the edge dislocation dipole pair and interfacial misfit dislocation network in Ni-based single crystal superalloys”, International Journal of Solids and Structures, 228 (2021) 111128.

[3]  J. Wang, Y.G. Shen, F. Song, F.J. Ke*, Y.L. Bai and C. Lu, “Effects of oxygen vacancies on polarization stability of barium titanate”, Science China Physics, Mechanics & Astronomy, 59 (2016), 634602.

[2]  J. Wang, C. Lu*, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, Y.B. Wang, B. Chen, X.Z. Liao and H. Gao, “Self-healing in fractured GaAs nanowires”, Acta Materialia, 60 (2012), 5593-5600.

[1]   J. Wang, A.J. Kulkarni, F.J. Ke, Y.L. Bai and M. Zhou*, “Novel mechanical behavior of ZnO nanorods”, Computer Methods in Applied Mechanics and Engineering, 197 (2008), 3182-3189.

奖都被学生拿走了，我正努力实现ing从0到1的突破。

不要998，也不要98，教育部认证，学信网可查。你还在等什么，想把硕士、博士学位证书带回家，麻溜滴复习备考吧!

自打发表几篇SCI论文后，腰酸了，腿疼了，走路也没劲儿了，别说一口气上五楼了，上炕都费劲儿。

宝子们，扫码加人工客服了解详情哈

在Acta Materialia, International Journal of Mechanical Sciences, International Journal of Solids and Structures, Computer Methods in Applied Mechanics and Engineering, Engineering Fracture Mechanics等国际权威期刊上发表SCI论文40余篇，Web of Science (WOS) 他引600余次，最高单篇引用80次，H因子15。通信作者以"*"号标注。

[46] Ziyan Zhang, Liangzhu Pan, Songlin Cai, Jun Wang*, Lanhong Dai, Chunsheng Lu, Minqiang Jiang*, Impact fatigue of pearlitic steel via atomic disordering at the ferrite-cementite interface, Computational Materials Science, 268 (2026) 114669.

[45] Xiaohui Jing, Tianyi Han, Jun Wang, Lanhong Dai and Minqiang Jiang*, Dynamic contact analysis of rigid sphere impact on amorphous alloys, Acta Mechanica Sinica, 42 (2026) 425397.

[44] Y.J. Song, J. Wang, L.H. Liang*, Mechanical, thermal, and short-circuit responses of different sizes and capacities batteries under compression: insights from 3D digital image correlation, Energy & Fuels, 39(15) (2025), 7550-7563.

[43]  Jun Wang, Ziwei Ma, Gan Ding, Rong Yang, Songlin Cai, Lanhong Dai, Chunsheng Lu*, Minqiang Jiang*, Impact response of pearlitic steel dominated by ferrite/cementite interface, Mechanics of Materials, 204 (2025), 105300.

[42]  Jun Wang, Ziwei Ma, Gan Ding, Rong Yang, Songlin Cai, Lanhong Dai, MinQiang Jiang*, Chunsheng Lu*, Energy dissipation in pearlitic steel under impact loading, Acta Materialia, 284 (2025) 120599.

[41]  Rong-Hao Shi, Pan Xiao*, Rong Yang, Jun Wang, Conversion of plastic work to heat in crystal Cu: A microscopic view by molecular simulations, Journal of Applied Physics, 136 (2024) 065102.  

[40]  Dou Lin, Ziyan Zhou, Ronghao Shi*, Bin Chen, Zhulin Huang, Haibin Tang,* Jun Wang, Xiaoguang Zhu, Cheng Shao, Fangming Han*, Carbon quantum dots-embedded reduced graphene oxide compact films for pressure-tolerant electrodes, Journal of Materials Chemistry A, 12 (2024), 19885–19890. 

[39]  Zhiwei Zhang*,  Xingyi Zhang, Rong Yang, Jun Wang*, Chunsheng Lu, The Ni3Al/Ni Interfacial Contribution to the Indentation Size Effect of Ni-Based Single-Crystal Superalloys, Solids,5(4) (2024), 580-592.

[38]  Zhiwei Zhang*,  Xingyi Zhang, Rong Yang, Jun Wang*, Chunsheng Lu, Deformation mechanisms dominated by  decomposition of an interfacial misfit dislocation network in Ni/Ni3Al multilayer structures, Materials, 17 (2024), 4006.

[37]  A.G. Zhao, J.C. Zhu, J.J. Xie, J. Wang, G.A. Qian, Z.D. Lin, X.L. Xia, M.G. Zhang*, X. Cai*, "Interpretation of frequency effect for high strength steels with three different strength levels via crystal plasticity finite element method", Materials, 17 (2024), 2350.

[36]  J.C. Zhu, J.J. Xie, J. Wang, Z.D. Lin, G.A. Qiang, A.G. Zhao*, “Low-cycle and dwell fatigue properties for a near alpha titanium alloy Ti-6Al-3Nb-2Zr-1Mo”, Journal of Materials Research and Technology, 29 (2024), 2204-2215.

[35]  Y.J. Song, J. Wang, L.H. Liang*, “Thickness effect on the mechanical performance of cathodes in lithium-ion batteries”, Journal of Energy Storage, 86 (2024), 111417.

[34]  L.F. Chen, J. Wang, L.H. Liang*, “Size dependent thermal cracking of silicon anodes”, Engineering Fracture Mechanics, 288 (2023), 109378. 

[33]  Z.W. Zhang, W. Cai, Y.H. Fen, G.H. Duan, J. Wang, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu*, “Dislocation reactions  dominated pop-in events in nanoindentation of Ni-based single crystal superalloys”, Materials Characterization, 200 (2023), 112883.

[32]  Z.W. Zhang, W. Cai, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu*, “Theoretical model for yield strength of monocrystalline Ni₃Al by simultaneously considering size and strain rate”, Transactions of Nonferrous Metals Society of China, 33 (2023), 816−823.

[31]  J.D. Wang, H.R. Ning, J. Wang, S.V. Kershaw, L.H. Jing*, and P. Xiao*, "Effects of repetitive pressure on the photoluminescence of bare and ZnS-capped CuInS₂ quantum dots: Implications for nanoscale stress sensors", ACS Applied Nano Materials, 5(4) (2022) 5617–5624.

[30]  Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Simultaneously achieving strength and ductility in Ni3Al nanowires with superlattice intrinsic stacking faults”, International Journal of Mechanical Sciences, 215 (2022), 106953

[29]  J. Wang, M. Zhou*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Repeatable mechanical energy absorption of ZnO nanopillars”, Materials Today Communications, 29 (2021) 102904.

[28]  J. Wang*, M. Zhou*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Mobility of the {0110} inversion domain boundary in ZnO nanopillars”, Materials Letters, 305 (2021) 130778.

[27]  Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Interaction between the edge dislocation dipole pair and interfacial misfit dislocation network in Ni-based single crystal superalloys”, International Journal of Solids and Structures, 228 (2021) 111128.

[26]  Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Atomistic modeling for the extremely low and high temperature-dependent yield strength in a Ni-based single crystal superalloy”, Materials Today Communications, 27 (2021) 102451.

[25]  Z.W. Zhang, Q. Fu, J. Wang*, R. Yang, P. Xiao, F.J. Ke and C. Lu, “Interaction between butterfly-like prismatic dislocation loop pairs and planar defects”, Physical Chemistry Chemical Physics, 23 (2021) 10377-10383.

[24]  Z.W. Zhang, Q. Fu, J. Wang*, P. Xiao, F.J. Ke and C. Lu, “Hardening Ni3Al via complex stacking faults and twinning boundary”, Computational Materials Science, 188 (2021), 110201.

[23]  J. Xue, S.W. Hao*, J. Wang, F.J. Ke, C. Lu and Y.L. Bai, “The changeable power law singularity and its application to prediction of catastrophic rupture in uniaxial compressive tests of geomedia”, Journal of Geophysical Research - Solid Earth, 123 (2018), 015591.

[22]  杨荣，张泰华，肖攀，王军，张群，双飞，柯孚久，白以龙, 百纳米以下压入硬度规律的科学意义和挑战, 中国科学: 物理学力学天文学, 48(9) (2018), 094603.

[21]  R. Yang*, Q. Zhang, P. Xiao, J. Wang and Y.L. Bai, “Two opposite size effects of hardness at real nano-scale and their distinct origins”, Scientific Reports, 7 (2017), 16053.

[20]  J. Wang*, Y.G. Shen, F. Song, F.J. Ke, X.Z. Liao and C. Lu, “On the wurtzite to tetragonal phase transformation in ZnO nanowires”, Nanotchnology, 28 (2017), 165705.

[19]  J. Wang, Y.G. Shen, F. Song, F.J. Ke*, Y.L. Bai and C. Lu, “Effects of oxygen vacancies on polarization stability of barium titanate”, Science China Physics, Mechanics & Astronomy, 59 (2016), 634602.

[18]  J. Wang, Y.G. Shen, F. Song, F.J. Ke, Y.L. Bai and C. Lu*, “Size-dependent brittle-to-ductile transition in GaAs nano-rods”, Engineering Fracture Mechanics, 150 (2015), 135-142.

[17]  J. Wang, Y.G. Shen*, F. Song, F.J. Ke, Y.L. Bai and C. Lu, “Materials can be strengthened by nanoscale stacking faults”, Europhysics Letters, 110 (2015), 36002.

[16]  P. Xiao*, J. Wang, R. Yang, F.J. Ke and Y.L. Bai, “Transition of mechanisms underlying the rate effects and its significance”, Computational Materials Science, 98 (2015), 70-75.

[15]  B. Chen, J. Wang, Y.W. Zhu, X.Z. Liao*, C. Lu, Y.-W. Mai, S. P. Ringer, F.J. Ke and Y.G. Shen, “Deformation-induced phase transformation in 4H–SiC nanopillars”, Acta Materialia, 80 (2014), 392-399.

[14]  B. Chen, J. Wang, Q. Gao, Y.J. Chen, X.Z. Liao*, C. Lu, H.H. Tan, Y.-W. Mai, J. Zou, S.P. Ringer, H. Gao and C. Jagadish, “Strengthening brittle semiconductor nanowires through stacking faults: Insights from in situ mechanical testing”, Nano Letters, 13 (2013), 4369-4373.

[13]  P. Xiao, J. Wang, R. Yang, F.J. Ke, M.F. Xia and Y.L. Bai*, “Rate effect and coupled evolution of atomic motions and potential landscapes”, Acta Mechanica Sinica, 29 (2013), 676-681.

[12]  肖攀，杨荣，王军，柯孚久，白以龙，“分子统计热力学(MST)并行计算软件的开发”，科研信息化技术与应用，3 (2012), 15–23

[11]  P. Xiao, J. Wang, F.J. Ke and Y.L. Bai*, “Molecular statistical thermodynamics – a distinct and efficient numerical approach to quasi-static analysis of nanomaterials at finite temperature”, Composites Part B: Engineering, 43 (2012), 57-63.

[10]  J. Wang, C. Lu*, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, Y.B. Wang, B. Chen, X.Z. Liao and H. Gao, “Self-healing in fractured GaAs nanowires”, Acta Materialia, 60 (2012), 5593-5600.

[9]  J. Wang, C. Lu*, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, Y.B. Wang, X.Z. Liao and H. Gao, “Self-healing of fractured one dimensional brittle nanostructures”, Europhysics Letters, 98 (2012), 16010.

[8]  J. Wang, C. Lu*, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, X.Z. Liao and H. Gao, “Influence of microstructures on mechanical behaviours of SiC nanowires: a molecular dynamics study”, Nanotechnology, 23 (2012), 025703.

[7]  J. Wang, C. Lu*, Q. Wang, P. Xiao, F.J. Ke, Y.L. Bai, Y.G. Shen, X.Z. Liao and H. Gao, “Understanding large plastic deformation of SiC nanowires at room temperature”, Europhysics Letters, 95 (2011), 63003.

[6]  J. Wang, A.K. Soh*, P. Xiao and F.J. Ke, “Molecular-dynamics investigation on polarization retention of barium titanate nanofilm arising from ordered oxygen vacancy”, Europhysics Letters, 92 (2010), 17006.

[5]  J. Wang, P. Xiao, M. Zhou, Z.R. Wang and F.J. Ke*, “Wurtzite-to-tetragonal structure phase transformation and size effect in ZnO nanorods”, Journal of Applied Physics, 107 (2010), 023512.

[4]  P. Xiao, X. Wang, J. Wang, F.J. Ke, M. Zhou and Y.L. Bai*, “Surface transformation and inversion domain boundaries in gallium nitride nanorods”, Applied Physics Letters, 95 (2009), 211907.

[3]  A.J. Kulkarni, K. Sarasamak, J. Wang, F.J. Ke, S. Limpijumnong and M. Zhou*, “Effect of load triaxiality on polymorphic transitions in zinc oxide”, Mechanics Research Communications, 35 (2008), 73-80.

[2]   J. Wang, A.J. Kulkarni, F.J. Ke, Y.L. Bai and M. Zhou*, “Novel mechanical behavior of ZnO nanorods”, Computer Methods in Applied Mechanics and Engineering, 197 (2008), 3182-3189.

[1]   J. Wang, A.J. Kulkarni, K. Sarasamak, S. Limpijumnong, F.J. Ke and M. Zhou*, “Molecular dynamics and density functional studies of a body-centered-tetragonal polymorph of ZnO”, Physical Review B, 76 (2007), 172103.

(5) 采用纳米尺度堆垛层错突破单晶强度研究，主持，国家自然科学基金-面上项目，2018.01-2021.12

(4) 氧缺位及应变诱发的纳米钛酸钡铁电材料保持失效机理研究, 主持, 国家自然科学基金-面上项目, 2012.01-2015.12

(3) GaAs纳米线的室温压缩塑性机制研究，教育部留学回国人员科研启动基金, 主持, 教育部, 2015.01-2015.12

(2) GaAs纳米线拉伸脆性与压缩塑性研究，中国博士后科学基金第5批特别资助, 主持, 中国博士后科学基金会, 2012.05-2012.12

(1) 砷化镓纳米线自愈合行为研究, 中国博士后科学基金第50批面上项目2等资助, 主持, 中国博士后科学基金会, 2011.10-2011.12