部分第一/通讯作者论文: [1] Y. Dai, S. Wang, Q. He, C. Liu, X. Wang, X. Li, L. Li, Y. Liu, C. He, Q. Wang, Effect of microstructure on slip-induced crack initiation and early propagation of martensitic steel during high cycle fatigue, International Journal of Fatigue.(通讯) [2] X. Li, Y. Dai, X. Wang, Y. Liu, Y. Chen, C. Wang, H. Zhang, L. Li, H. Liu, C. He, Q. Wang, Effects of local microstructure on crack initiation in super martensitic stainless steel under very-high-cycle fatigue, International Journal of Fatigue, 163 (2022).(通讯) [3] X. Wang, C. He, X. Li, Y. Liu, Q. Wang, L. Li, H. Zhang, C. Wang, Crack initiation and propagation characteristics of a dual‐phase Mg–Li alloy under high‐cycle and very‐high‐cycle fatigue regimes, Fatigue & Fracture of Engineering Materials & Structures, 45 (2022) 84-100.(通讯) [4] D. Meng, S. Yang, C. He, H. Wang, Z. Lv, Y. Guo, P. Nie, Multidisciplinary design optimization of engineering systems under uncertainty: a review, International Journal of Structural Integrity, 13 (2022) 565-593.(通讯) [5] H. Liu, J. Song, H. Wang, C. Yu, Y. Du, C. He, Q. Wang, Q. Chen, Slip-driven and weld pore assisted fatigue crack nucleation in electron beam welded TC17 titanium alloy joint, International Journal of Fatigue, 154 (2022) 106525.(通讯) [6] Y.J. Dai, C. Liu, M. Zhan, X.Y. Wang, C. He, Q.Y. Wang, Heterogeneous deformation of friction stir welded aluminum alloy 6061 in tension and high cycle fatigue, International Journal of Structural Integrity, 13 (2022) 813-828.(通讯) [7] Z. Chen, Z. Dong, C. Liu, Y. Dai, C. He, Characterization on Crack Initiation and Early Propagation Region of Nickel-Based Alloys in Very High Cycle Fatigue, Materials (Basel), 15 (2022).(通讯) [8] X. WANG, C. HE, X. Li, L. LI, Y. LIU, Q. WANG, Effect of long-period stacking ordered structure on very high cycle fatigue properties of Mg-Gd-Y-Zn-Zr alloys, Journal of Magnesium and Alloys, DOI (2021) In publication.(通讯) [9] D. Meng, T. Xie, P. Wu, C. He, Z. Hu, Z. Lv, An uncertainty-based design optimization strategy with random and interval variables for multidisciplinary engineering systems, Structures, Elsevier, 2021, pp. 997-1004.(通讯) [10] D. Meng, Y. Li, C. He, J. Guo, Z. Lv, P. Wu, Multidisciplinary design for structural integrity using a collaborative optimization method based on adaptive surrogate modelling, Materials & Design, 206 (2021) 109789.(通讯) [11] H. Liu, J. Song, H. Wang, C. Yu, Y. Du, C. He, Q. Wang, Q. Chen, Slip-driven and weld pore assisted fatigue crack nucleation in electron beam welded TC17 titanium alloy joint, International Journal of Fatigue, DOI (2021) 106525.(通讯) [12] C. He, X. Li, Y. Liu, C. Wang, H. Zhang, L. Li, Q. Wang, X. Shao, Q. Chen, Localized dislocation interactions within slip bands and crack initiation in Mg-10Gd-3Y-0.3 Zr alloy, International Journal of Fatigue, 150 (2021) 106302. [13]刘宸汗,刘玉,詹敏,汤栋,王硕,何超,王清远, WE94镁合金长寿命疲劳小裂纹萌生和扩展行为研究,中国测试, DOI (2021) 1-10.(通讯) [14] X. Li, R. Zhang, X. Wang, Y. Liu, C. Wang, H. Zhang, L. Li, C. He, Q. Wang, Effect of high temperature on crack initiation of super austenitic stainless steel 654SMO in very high cycle fatigue, Materials & Design, 193 (2020) 108750.(通讯) [15] C. He, Y. Wu, L. Peng, N. Su, Q. Chen, S. Yuan, Y. Liu, Q. Wang, Effect of microstructure on small fatigue crack initiation and early propagation behavior in Mg-10Gd-3Y-0.3 Zr alloy, International Journal of Fatigue, 119 (2019) 311-319. [16] C. He, X. Shao, S. Yuan, L. Peng, Y. Wu, Q. Wang, Q. Chen, Small crack initiation and early propagation in an as-extruded Mg-10Gd-3Y-0.5 Zr alloy in high cycle fatigue regime, Materials Science and Engineering: A, 744 (2019) 716-723. [17] C. He, Y. Liu, J. Li, K. Yang, Q. Wang, Q. Chen, Very-high-cycle fatigue crack initiation and propagation behaviours of magnesium alloy ZK60, Materials Science and Technology, 34 (2018) 639-647. [18] C. He, K. Yang, Y. Liu, Q. Wang, M. Cai, Improvement of very high cycle fatigue properties in an AA7075 friction stir welded joint by ultrasonic peening treatment, Fatigue & Fracture of Engineering Materials & Structures, 40 (2017) 460-468. [19] C. He, K. Kitamura, K. Yang, Y.-j. Liu, Q.-y. Wang, Q. Chen, Very high cycle fatigue crack initiation mechanism in nugget zone of AA 7075 friction stir welded joint, Advances in Materials Science and Engineering, 2017 (2017). [20] C. He, Y. Liu, J. Dong, Q. Wang, D. Wagner, C. Bathias, Through thickness property variations in friction stir welded AA6061 joint fatigued in very high cycle fatigue regime, International Journal of Fatigue, 82 (2016) 379-386. [21] C. He, R.-h. Tian, Y.-j. Liu, J.-k. Li, Q.-y. Wang, Ultrasonic fatigue damage behavior of 304L austenitic stainless steel based on micro-plasticity and heat dissipation, Journal of Iron and Steel Research International, 22 (2015) 638-644. [22] C. He, Y. Liu, J. Dong, Q. Wang, D. Wagner, C. Bathias, Fatigue crack initiation behaviors throughout friction stir welded joints in AA7075-T6 in ultrasonic fatigue, International Journal of Fatigue, 81 (2015) 171-178. [23] C. He, C. Huang, Y. Liu, J. Li, Q. Wang, Effects of mechanical heterogeneity on the tensile and fatigue behaviours in a laser-arc hybrid welded aluminium alloy joint, Materials & Design (1980-2015), 65 (2015) 289-296. [24] C. He, C. Huang, Y. Liu, Q. Wang, Fatigue damage evaluation of low-alloy steel welded joints in fusion zone and heat affected zone based on frequency response changes in gigacycle fatigue, International Journal of Fatigue, 61 (2014) 297-303. [25]何超,崔仕明,刘永杰,王清远,气孔对铝合金焊接接头超长疲劳寿命的影响,焊接学报, 35 (2014) 18-22. [26] C. He, S.M. Cui, Y.Z. Wu, Z.F. Luo, Q.Y. Wang, Simulation of the Global Response of Welded Joint Using Digital Image Correlation Measurement, Advanced Materials Research, Trans Tech Publications Ltd, 2013, pp. 597-600. [27] C. HE, S.-m. CUI, Z.-f. LUO, Y.-z. WU, Q.-y. WANG, Research on Tensile Properties of Welded Joint with Mechanical Heterogeneity, Journal of Sichuan University (Engineering Science Edition), DOI (2013) S1. [28]何超,崔仕明,罗泽富,吴彦增,王清远,力学不均匀性对焊接接头拉伸性能的影响,新人注册送58的app学报(工程科学版), 45 (2013) 38-42. [29]何超,王清远,刘永杰,超声加载条件下低合金钢疲劳裂纹扩展寿命,新人注册送58的app学报(工程科学版), 44 (2012) 23-26. [30]何超,田仁慧,王清远,钛合金焊接接头超长寿命疲劳特性研究,中国测试, 38 (2012) 20-22+26. |