硕士生导师
个人信息Personal Information
学历:博士研究生毕业
学位:工学博士学位
办公地点:西南交通大学犀浦校区3号教学楼30276
性别:女
毕业院校:西南交通大学
学科:力学
所在单位:力学与航空航天学院
报考该导师研究生的方式
欢迎你报考张娟老师的研究生,报考有以下方式:
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论文成果
[1] Juan Zhang , Zhicheng Song, Zongxi Wu, Xingmin Huang, Qianhua Kan. Cyclic deformation behavior of medium-manganese transformation-induced plasticity steel at elevated temperatures: Mechanical tests and microstructural characterization,International Journal of Fatigue, 2025, 195: 108866.
[2] 张子涛, 宋志诚, 张娟. 碳纤维增强PEEK复合材料循环变形的实验研究, 四川轻化工大学学报(自然科学版), 2025, 38(2): 1-9.
[3] 杨云俊,畅舒心,张 娟. 中锰 TRIP 钢棘轮行为的晶粒尺寸依赖性相场研究, 四川轻化工大学学报(自然科学版), 2025, 38(1): 1-10.
[4] 江晓禹, 龚晖, 李翔宇, 高芳清, 张娟, 史智, 唐达培. 第十四届全国周培源大学生力学竞赛(个人赛)材料力学试题考核要点, 力学与实践, 2025, 47(3): 673-678.
[5] 王小萌, 张娟, 张佳烨, 刘虎. 机器学习赋能力学专业课教学创新与实践, 实验室研究与探索, 2025, 44(5): 141-145.
[6] P.N. Mao, J.J. Liu, X.M. Huang, Z.Y. Zhong, J. Zhang, Y. Shi. The effect of double intercritical annealing on micromechanical behavior of a medium Mn transformation induced plasticity steel investigated by in situ high energy X-ray diffraction, Materials Science & Engineering A, 2024, 902: 146576.
[7] Shuxin Chang, Zhiwu Zhu, Xingmin Huang, Juan Zhang, Guozheng Kang. Effect of martensitic transformation on ratchetting in medium-manganese steel: Experiment and homogenized constitutive model, International Journal of Fatigue, 2024, 181: 108118.
[8] 畅舒心, 张 娟, 刘骏华, 黄兴民. 中锰钢棘轮行为的细观有限元模拟, 机械工程材料, 2024, 48(2): 74-81.
[9] 毛沛宁, 黄兴民, 纪秀林, 张娟, 石宇. 临界退火温度对含铝热轧中锰钢滑动摩擦性能的影响, 摩擦学学报(中英文), 2024, 44(12): 1673-1684.
[10] 刘俊杰, 黄兴民, 姚鑫, 赵君文, 张 娟, 余代尧, 毛沛宁. 临界淬火态热轧中锰钢单轴拉伸过程中的塑性失稳行为, 材料工程, 2024, 52(12): 134-142.
[11] Xiaomeng Wang, Juan Zhang, Qian Wu, Michal Petrů. Fractional calculus-based creep model of HFRP double lap joint subjected to NaCl solution, Polymer Testing, 2023, 126: 108166.
[12] Shuxin Chang, Zhiwu Zhu, Guozheng Kang, Xingmin Huang, Juan Zhang. Phase-field theory based finite element analysis for ratchetting behavior of medium-manganese steel, Computational Materials Science, 2023, 228: 112337.
[13] Shuxin Chang, Juan Zhang, Zhiwu Zhu, Guozheng Kang, Lei Peng, Xingmin Huang. The ratchetting and retained austenite transformation of medium-manganese transformation-induced plasticity steel during asymmetrical cyclic stressing. Fatigue Fract Eng Mater Struct, 2022, 45: 1605–1617.
[14] 刘骏华, 张娟, 张 晨, 黄兴民. 颗粒增强金属基复合材料细观有限元建模方法的对比, 机械工程材料, 2022, 46(4): 82-94.
[15] 彭 磊, 张娟, 畅舒心. 中锰 TRIP 钢棘轮行为及其本构模拟分析, 机械研究与应用, 2022, 35(4): 11-19.
[16] Wei Rao, Chao Yu, Juan Zhang, Guozheng Kang. New incremental secant linearization method for mean-field homogenization approach of elasto-viscoplastic microscopic heterogeneous materials, Composite Structures, 2021, 271: 114125.
[17] 张娟, 康国政, 饶威. 金属玻璃基复合材料的变形行为及本构关系研究综述, 力学学报, 2020, 52(2): 318-332.
[18] Wei Rao, Guozheng Kang, Juan Zhang. Numerical study on toughening mechanism of bulk metallic glass composites from martensite transformation of toughening phase, Journal of Non-Crystalline Solids, 2019, 506: 88-97.
[19] Wei Rao, Juan Zhang, Guozheng Kang, Chao Yu, Han Jiang. A meso-mechanical constitutive model of bulk metallic glass composites considering the local failure of matrix, International Journal of Plasticity, 2019, 115: 238-267.
[20] 蒋晓琴, 张娟, 饶威, 金属玻璃基复合材料率敏感性变形行为的数值模拟, 四川理工学院学报(自然科学版), 2019, 32(3): 43-51.
[21] Wei Rao, Juan Zhang, Guozheng Kang, Peter K. Liaw. Numerical simulationon the deformation behaviors of bulk metallic glass composites under uniaxial tension and compression, Composite Structures, 2018, 187: 411–428.
[22] Wei Rao, Juan Zhang, Guozheng Kang. A failure mechanism based constitutive model for bulk metallic glass, Mechanics of Materials , 2018, 125: 52-69.
[23] 刘杰, 张娟, 饶威, 块体金属玻璃基复合材料在拉伸荷载下的剪切带演化模拟, 四川理工学院学报(自然科学版), 2018, 31(2): 14-20.
[24] Wei Rao, Juan Zhang, Han Jiang, Guozheng Kang. Meso-mechanical constitutive model of bulk metallic glass matrix composites, Mechanics of Materials, 2016, 103: 68-77.
[25] 李小燕; 张娟, 阚前华, 块体金属玻璃基复合材料拉伸和压缩不对称行为的有限元模拟, 应用数学和力学, 2015.5.1, 36(s): 53~57.
[26] 张茹远, 阚前华, 张娟, 康国政, 形状记忆合金的力学及界面参数和体积分数对大块金属玻璃基复合材料增韧的影响, 复合材料学报, 2015.2.1, 32(1): 188~195.
[27] S. J. GUO, G. Z. KANG, J. ZHANG, Q. H. KAN. EFFECTS OF TANGENT OPERATORS ON PREDICTION ACCURACY OF MESO-MECHANICAL CONSTITUTIVE MODEL OF ELASTO-PLASTIC COMPOSITES, International Journal of Computational Methods, 2014, 11(4): 1350064.
[28] 任学红; 张娟, 康国政, 阚前华, 典型循环本构模型对 316L 不锈钢单轴棘轮行为预测结果评估, 应用数学和力学, 2014.01.01, (S1): 204~207.
[29] 张茹远, 阚前华, 张娟, 康国政, 形状记忆合金增韧大块金属玻璃复合材料界面失效分析, 应用数学与力学, 2014.11.1, 35(s): 171~175.
[30] Sujuan Guo, Guozheng Kang , Juan Zhang. A cyclic visco-plastic constitutive model for time-dependent ratchetting of particle-reinforced metal matrix composites, International Journal of Plasticity, 2013, 40: 101-125.
[31] Sujuan Guo, Guozheng Kang, Juan Zhang. Meso-mechanical constitutive model for ratchetting of particle-reinforced metal matrix composites, International Journal of Plasticity, 2011, 27: 1896-1915.
[32] S.J. Guo, G.Z. Kang, J. Zhang. Uniaxial and Multiaxial Ratchetting of SiCp/6061Al Composites: Constitutive Modeling and Finite Element Simulation, 2011,3nd Int. Conf. on Heterogeneous Material Mechanics (ICHMM-2011), 746-752.
[33] 罗海波,张娟,康国政. 1Cr18Ni9Ti不锈钢单轴棘轮-疲劳交互作用实验研究,塑性力学新进展,清华大学出版社,2011:360-365.
[34] 焦文文,张娟,康国政,郭素娟,邵雪娇. RSA方法的颗粒增强金属基复合材料棘轮行为的数值模拟, 复合材料创新与可持续发展, 776-780. 中国科学技术出版社2010.10.
[35] 焦文文,张娟,康国政,郭素娟. 颗粒形状对SiCp/6061Al合金复合材料棘轮行为影响的有限元分析, 四川大学学报(工程科学版), 2010, Vol.42(Supp.2):106-109.
[36] 罗海波,张娟,阚前华. 304不锈钢在高温下的单轴棘轮与蠕变交互作用行为实验研究, 四川大学学报(工程科学版), 2010, Vol.42(Supp.2):165-169.
[37] 邵雪娇, 康国政,郭素娟,张娟. 颗粒性态的随机性对SiCP/6061Al复合材料棘轮行为影响的有限元分析, 复合材料学报, 2010,Vol.27(3): 128-133.
[38] Zhang Juan, Kang Guozheng, Gao Qing, Liu Yujie;Experimental study on creep-ratcheting-fatigue interaction of SS304 stainless steel at room and high temperatures, Structural Integrity and Materials Ageing in Extreme Conditions, 67-72 , East China University of Science and Technology Press, 2010.10.
[39] Sujuan Guo, Guozheng Kang, Juan Zhang, Yan Guo. Finite element simulation of ductile crack propagation in metal materials, 2009, Transferability and Applicability of Current Mechanics Approaches (FM2009), pp31-35.
[40] 张娟,康国政. 描述循环硬化材料非比例多轴循环变形行为的本构模型的有限元实现, 断裂与疲劳及结构安全性评定,221-227. 西南交通大学出版社, 2009.11.
[41] 阚前华,史智,康国政,张娟. 304不锈钢非比例多轴时间相关棘轮行为的本构模型研究, 核动力工程,2009, Vol.30(3): 51-55.
[42] Kang GZ, Zhang J, Sun YF, Kan QH. Uniaxial time-dependent ratcheting of SS304 stainless steel at high temperatures, Journal of Iron and Steel Research International , 2007, Vol. 14 (1): 53-59.
[43] Kang GZ, Kan QH, Zhang J. Time-dependent Ratcheting Experiments of SS304 Stainless Steel, International Journal of Plasticity, 2006, Vol.22(5):858-894.
[44] Kang Guozheng, Kan Qianhua, Zhang Juan, Liu Yujie. Constitutive modeling for uniaxial time-dependent ratcheting of ss304 stainless steel, Key Engineering Materials, 2007, Vol. 340-341 II: 817-822.
[45] Kan QH, Kang GZ, Zhang J. Uniaxial time-dependent ratchetting: Visco-plastic model and finite element application, Theoretical and applied Fracture Mechanics, 2007, Vol.47(2): 133~144.
[46] Kang GZ, Zhang J, Sun YF, Kan QH. Uniaxial time-dependent ratcheting of SS304 stainless steel at high temperatures, Journal of Iron and Steel Research International , 2007, Vol. 14 (1): 53-59.
[47] 阚前华,康国政,张娟. SS304不锈钢单轴时相关棘轮行为的本构描述, 核动力工程,2007, Vol.28(4): 66-71.
[48] 阚前华, 康国政, 张娟. SS304不锈钢室温非比例多轴时相关棘轮行为的实验研究, 核动力工程, 2006, Vol.27(2):59-63.
[49] Kang GZ, Li Y, Gao Q, Kan QH, Zhang J. Uniaxial ratchetting in steels with different cyclic softening/hardening behaviours, Fatigue & Fracture of Engineering Materials & Structures, 2006, Vol. 29 (2): 93-103.
[50] 张娟, 高庆, 康国政, 刘宇杰. 304不锈钢高温非比例多轴应变循环变形行为研究. 核动力工程,2006, Vol.27(4):44-49.
[51] 张娟, 康国政, 高庆, 刘宇杰. 304不锈钢高温非比例多轴棘轮行为实验研究. 核动力工程,2006, Vol.27(5):61-64.
[52] 张娟, 高庆, 康国政, 刘宇杰. SS304不锈钢高温非比例多轴循环变形行为的粘塑性本构描述. 应用力学学报,2006, Vol.23(4):592-598.
[53] Juan Zhang, Qing Gao, Guozheng Kang, Yujie liu. Non-proportional mulitiaxial cyclic deformation of SS304 at high temperatures: experiments and constitutive model. Multiscaling associated with structural and material integrity under elevated temperature, FM2006会议论文集:193-198.
[54] Juan Zhang, Qing Gao, Guozheng Kang. Finite Element Simulation for Tensile Properties of δ-Al2O3f/Al Alloy Composites with Thermal Residual Stress Considered, Key Engineering Materials, 2005, Vol.297-300: 1270~1276.
[55] Juan Zhang, Qing Gao, Guozheng Kang. The Non-proportionally Multiaxial Cyclic Deformation of SS304 Stainless Steel at High Temperatures, Proceedings of the International Conference on Mechanical Engineering and Mechanics 2005, Science Press USA Inc., 2005, 703-708.
[56] 张娟, 高庆, 康国政. δ-Al2O3短纤维增强Al合金复合材料热残余应力及其影响, 西南交通大学学报, 2005, Vol.40(3): 351-354.
[57] 阚前华, 康国政, 张娟. SS304不锈钢高温非比例多轴加载下时相关循环变形行为的实验研究, 金属学报,2005,Vol.41(9) : 963-968.
[58] 康国政, 孙亚芳, 张娟. SS304不锈钢在室温单轴循环加载下的时相关棘轮行为. 金属学报, 2005, Vol.41(3):277-281
[59] Kang, GZ; Li, YG; Zhang, J; Sun, YF; Gao, Q. Uniaxial ratcheting and failure behaviors of two steels. Theoretical and Applied Fracture Mechanics, 2005, Vol.43 (2): 199-209.
[60] G. Z. Kang, Q. Gao, J. Zhang. Visco-plastic Constitutive Model for Uniaxial and Multiaixal Ratcheting at Elevated Temperatures, Acta Metallurgica Sinca (English Letter), 2004, Vol.14(4): 431-436.
[61] 张娟,高庆,康国政. 考虑热残余应力的短纤维复合材料拉伸行为有限元分析, 复合材料-生命、环境与高技术,天津大学出版社,2002年,p943-946.
[62] 高庆,康国政, 杨川, 张娟. 高温下短纤维增强复合材料界面的微观结构特征和热残余应力状态研究,复合材料学报, 2002, 19(4), p46-50.
[63] 张娟,徐建波. 碳纤维布加固混凝土梁的抗剪承载力分析,四川建筑,2002,Vol.22(3),p51-53.
编著书籍
[1] 大型有限元程序的原理、结构与使用,康国政,阚前华,张娟。西南交通大学出版社,2008年3月。
[2] ANSYS高级工程应用实例分析与二次开发,阚前华,谭长建,张娟,董城。电子工业出版社,2006年8月。