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张玲 系所:电镜中心 职称:研究员 职务: 学位:博士 邮箱:zhangling2014@cqu.edu.cn 电话: |
学习工作经历
2014.12-至今,重庆大学
2007.07-2014.12,日本国家材料研究所(NIMS),元素战略材料中心,博士后
2001.09-2007.04,北京科技大学,材料科学与工程学院,博士(硕博一贯制)
1997.09-2001.07,北京科技大学,材料科学与工程学院,学士
社会兼职
Material Science & Engineering A, Journal of Materials Science and Technology (JMST),International Journal of Metallurgy and Metal Physics等的审稿人
主讲课程
材料强度与断裂
复合材料学
主要研究方向
电镜表征技术开发:原位扫描电镜/透射电镜力学表征技术的开发与应用
利用原位力学及原位加热等先进分析手段解析现有材料微纳尺度下组织与力学性能的关系;
开发基于透射电镜及扫描电镜的原位表征技术基础研究:微纳尺度非均匀结构材料的构筑与强韧化
基于纳米到微米多尺度组织调控制备异质结构材料,开发具有崭新力学性能的钢铁材料、钛合金和镁铝合金等结构材料。
科研项目
NSFC面上项目1项,主持,2017-2020
NSFC面上项目1项,参研,已结题
科技部国家重点专项,骨干
国家基金委主任基金1项,主持,已结题
论文/专著/专利
2020年
[1] Jiahong Dai, Tingting Wang, Linjiang Chai*, Xing Hu, Ling Zhang*, Ning Guo, Characterization and correlation of microstructure and hardness of Ti-6Al-4V sheet surface-treated by pulsed laser, Journal of Alloys and Compounds, 826 (2020)154243
[2] Xiaojuan Jiang, Yu Bai, Ling Zhang*, Guilin Wu, Si Gao*, Xiaoxu Huang, Nobihiro Tsuji, Termination of local strain concentration led to better tensile ductility in multilayered 2N/4N Al sheet, Materials Science and Engineering: A, 782 (2020) 139240
[3] Zongqiang Feng*, Xuan Luo, Yanxia Chen, Nan Chen, Ling Zhang, Guilin Wu, Xiaoxu Huang, Effects of precipitates versus solute atoms on the deformation induced grain refinement in an Al-Cu-Mg alloy, 711(2020)138486
[4]Tingting Zuo, Jian Li, Zhaoshun Gao*, Yue Wu, Ling Zhang, Bo Da,Xingke Zhao,Liye Xiao, Simultaneous improvement of electrical conductivity and mechanical property of Cr doped Cu/CNTs composites, Materials Today Communications,23(2020)100907
[5] Qianqian Zhu, Xiaodong Wu*, Lingfei Cao*, Ling Zhang, Qing Liu, in-situ micro-compression of single-crystal aluminum alloy 6063, Materials Science and Engineering: A, 775(2020)138974
[6] Guilin Wu*, Wanquan Zhu, Qiongyao He, Zongqiang Feng, Tianlin Huang, Ling Zhang, Søren Schmidt, Andrew Godfrey, Xiaoxu Huang, 2D and 3D orientation mapping in nanostructured metals: A review, Nano Materials Science, 2(2020)50-57
[7] Pengfei Zhang, Yunchang Xin*, Ling Zhang, Shiwei Pan, Qing Liu, On the texture memory effect of a cross-rolled Mg-2Zn-2Gd plate after unidirectional rolling, Journal of Materials Science & Technology, 41(2020)98-104
[8] Zongqiang Feng*, Rui Fu, Chengwei Lin, GuilinWu*, Tianlin Huang, Ling Zhang, Xiaoxu Huang, TEM-based dislocation tomography: Challenges and opportunities, Current Opinion in Solid State and Materials Science, available on line
[9] Liqiang Wang, Yingchen Wang, Wei Huang, Jia Liu*, Yujin Tang, Ling Zhang*, Yuanfei Fu, Lai-Chang Zhang, Weijie lu, Tensile and superelastic behaviors of Ti-35Nb-2Ta-3Zr with gradient structure, Materials and Design,194(2020)108961
2019年
[1] Xiaojuan Jiang, Lijuan Zhang, Ling Zhang*, Tianlin Huang, Guilin Wu, Xiaoxu Huang, Oleg Mishin*, Heterogeneous microstructure and enhanced mechanical properties in annealed multilayered IF steel, Materials Science & Engineering A 759 (2019) 262–271
[2] Lijuan Zhang, Mingyang Liang, Zongqiang Feng, Ling Zhang*, Wenquan Cao, Guilin Wu*, Nanoindentation characterization of strengthening mechanism in a high strength ferrite/martensite steel, Materials Science & Engineering A, 745 (2019) 144-148
[3] Dai-Ming Tang, Ling Zhang*, Cui-Lan Ren, et al. Size effects on the mechanical properties of nanoporous graphene networks, Advanced Functional Materials, (2019) 1900311
[4] Tingting Wang, Lingguo Zeng, Zhijun Li, Linjiang Chai*, Tijuan Cheng, Ling Zhang*, Vahid Fallah, Qingshan Dong, and Zhongwen Yao, Influences of Laser Surface Alloying with Cr on Microstructural Characteristics and Hardness of Pure Ti, Metallurgical and Materials Transactions A, 50A (2019) 3794-3804
[5] Zong-Lin Yang, Zhen-Yun Zhang, Wei-Li Fan, Ling Zhang* and Jun-Jie Qi*, High-Performance g-C3N4 Added Carbon-based Perovskite Solar Cells Insulated by Al2O3 Layer, Solar Energy 193 (2019) 859–865
[6] Zhenyun Zhang, Weili Fan, Xuecheng Wei, Ling Zhang*, Zonglin Yang, Zhe Wei, Tao Shen, Haonan Si, Junjie Qi*, Promoted performance of carbon based perovskite solar cells by environmentally friendly additives of CH3COONH4 and Zn(CH3COO)2, Journal of Alloys and Compounds, 802 (2019) 694-703
[7] Yonggang Zhao; Zijie Xiang; Yuanbiao Tan; Xuanming Ji; Ling Zhang*; Fei Zhang, Song Xiang*, Microstructure transformation on pre-quenched and ultrafast tempered high-strength multiphase steels, Materials, 12 (2019) 396
[8] J. Xia, L. Yang*, R. Wu*, Y.C. Zhou, L. Zhang, K.L. Huo, M. Gan, Degradation mechanisms of air plasma sprayed yttria-stabilized zirconia thermal barrier coatings exposed to volcanic ash, Applied Surface Science 481 (2019) 860–871
[9] Weijie Ren, Renlong Xin*, Jianbin Xu, Bo Song, Ling Zhang* and Qing Liu, Modeling the influences of precipitate type on twin/slip activity in ZK60 alloys and resultant yield asymmetry, Journal of Alloys and Compounds, 792 (2019) 610-616
[10] Pengzhan Cai, Xiaojin Lian, Zhixiang Tang, Ling Zhang*, Tingting Wang, Linjiang Chai, Guilin Wu, Effect of heterogeneous laser surface treatment on mechanical properties of interstitial free steel, IOP Conference Series: Materials Science and Engineering, 580 (2019) 012029
2018年
[1] Lin Xie, Tianlin Huang, Ling Zhang*, Wenquan Cao, Guilin Wu*, Xiaoxu Huang, Managing both strength and ductility in duplex stainless steel with heterogeneous lamella structure, Materials Science & Engineering A, 738 (2018) 190–193
[2] Qiongyao He, Wanquan Zhu, XiaoxiaoFu*, Ling Zhang, Guilin Wu* and Xiaoxu Huang, Simultaneous enhancement of mechanical and magnetic properties in extremely-fine nanograinedNi-P alloys, Nanomaterials, 8 (2018) 792
[3] Sujuan Wu*, Jianguo Sun, Shi-Ze Yang, Qiongyao He, Ling Zhang, and Lidong Sun*, Evolution of oxyhalidecrystals under electron beam irradiation: an in situ method to understand the origin of structural instability, Inorganic Chemistry, 57 (2018) 8988-8993
2017年
[1] L. Zhang*, Z. Chen, Y.H. Wang, G.Q. Ma, T.L. Huang, G.L. Wu, D. Juul Jensen. Fabrication interstitial-free steel with simultaneous high strength and good ductility with homogeneous layer and lamella structure. Scripta Mater., 141(2017), 111-114.
[2] L. Xie, T.L. Huang, Y.H. Wang, L. Zhang, G.L. Wu*, N. Tsuji and X. Huang. Structural refinement and property optimization in an Fe-23Cr-8.5Ni duplex stainless steel. IOP Conf. Series: Materials Science and Engineering, 219 (2017) 012045.
[3] L. Zhang*, X.J. Jiang, Y.H. Wang, Q. Chen, Z. Chen, Y.H. Zhang, T.L. Huang, G.L. Wu. Heterogeneous multi-layered IF steel with simultaneous high strength and good ductility. IOP Conf. Series: Materials Science and Engineering, 219 (2017) 012052
2016年
[1] D. F. Carpeno*, T. Ohmura, L. Zhang, et al. Softening and compressive twinning in nanosecond ultraviolet pulsed laser-treated Ti6Al4V. Scripta Materialia. 2016; 113:139-144.
[2] Yi-Chieh Hsieh, Ling Zhang, Tsai-Fu Chung, Yu-Ting Tsai, Jer-RenYang*, Takahito Ohmura and Takuya Suzuki, In-situ transmission electron microscopy investigation of the deformation behavior of spinodal nanostructured δ-ferrite in a duplex stainless steel, Scripta Mater. 2016; 125: 44-48
[3] J. Xia, L. Yang*, R.T. Wu*, Y.C. Zhou, L. Zhang, B.B. Yin, Y.G. Wei,On the resistance of rare earth oxide-doped YSZ to high temperature volcanic ash attack,Surface and Coatings Technology, 2016; 307: 534-541
2015年
[1] D. F. Carpeno*, T. Ohmura, L. Zhang, et al. Nanomechanical and in situ TEM characterization of boron carbide thin films on helium implanted substrates: Delamination, real-time cracking and substrate buckling. Materials Science and Engineering A. 2015; 639:54-64.
[2] K.-j. Duan, L. Zhang, X.-z. Yuan, et al. Effect of an upward magnetic field on nanosized sulfide precipitation in ultra-low carbon steel. International Journal of Minerals, Metallurgy, and Materials. 2015; 22:714-720.
[3] X. Min*, S. Emura, L. Zhang, et al. Improvement of strength–ductility tradeoff in β titanium alloy through pre-strain induced twins combined with brittle ω phase. Materials Science and Engineering: A. 2015; 646:279-287.
2015年以前代表作
[1] L. Zhang*, T. Ohmura,Plasticity initiation and evolution during nanoindentation of an iron–3% silicon crystal. Physical Review Letters, 2014. 112(14): p. 145504.
[2] L. Zhang*, N. Sekido, T. Ohmura, Real time correlation between flow stress and dislocation density in steel during deformation. Materials Science and Engineering: A, 2014. 611: p. 188-193.
[3] L. Zhang*, T. Ohmura, K. Tsuzaki, Application of nanoindentation technique in martensitic structures, in: J. Nemecek (Ed.) nanoindentation in materials science, Publisher: InTech, 2012. pages: 308, p. 109-130,
[4] L. Zhang*, T. Ohmura, K. Seikido, K. Nakajima, T. Hara, K. Tsuzaki, Dislocation character transition and related mechanical response in a body-entered cubic single crystal. Scripta Materialia, 2012. 67(4): p. 388-391.
[5] T. Ohmura*, L. Zhang, K. Sekido, K. Tsuzaki, Effects of lattice defects on indentation-induced plasticity initiation behavior in metals. Journal of Materials Research, 2012. 27(13): p. 1742-1749.
[6] X. H. Min*, L. Zhang, K. Sekido, T. Ohmura, S. Emura, K. Tsuchiya, K. Tsuzaki, Strength evaluation of α and β phases by nanoindentation in Ti–15Mo alloys with Fe and Al addition. Materials Science and Technology, 2012. 28(3): p. 342-347.
[7] L. Zhang*, T. Ohmura, K. Seikido, K. Nakajima, T. Hara, K. Tsuzaki, Direct observation of plastic deformation in iron3% silicon single crystal by in situ nanoindentation in transmission electron microscopy. Scripta Materialia, 2011. 64(9): p. 919-922.
[8] K. Sekido*, T. Ohmura, L. Zhang, T. Hara, K. Tsuzaki, The effect of interstitial carbon on the initiation of plastic deformation of steels. Materials Science and Engineering: A, 2011. 530: p. 396-401.
[9] L. Zhang*, T. Ohmura, A. Shibata, K. Tsuzaki, Characterization of local deformation behavior of Fe–Ni lenticular martensite by nanoindentation. Materials Science and Engineering: A, 2010. 527(7-8): p. 1869-1874.
[10] Q. S. Mei*, L. Zhang, K. Tsuchiya, H. Gao, T. Ohmura and K. Tsuzaki, Grain size dependence of the elastic modulus in nanostructured NiTi. Scripta Materialia, 2010. 63(10): p. 977-980.