第一作者(#)&通讯作者 (*),按年度排序
[1]X. J. Jiang, J. J. Ba, Z.Chen.Experimental Investigation of Self-Loosening Behavior of Bolt Joints with Superelastic Shape-Memory Alloy by Macroscopic-Mechanical Response and Microscopic Evolution.ASCE Journal of engineering mechanics.2020,146 (7):1-10(IF: 2.003)
[2]潘峰群;蒋翔俊(*);范叶森.形状记忆索网结构型面精度优化设计.机械工程学报.2020,56 (9):1-8
[3]X. J. Jiang, G. Q. Shao, J. Huang.Prediction of Electrical Contact Endurance Subject to Micro-slip Wear Using Friction Energy Dissipation Approach.Friction.2019,7 (6):537–550(IF: 5.29)
[4]X. J. Jiang,F. Q. Pan.Active Adjustment of Surface Accuracy for a Large Cable-Net Structure by Shape Memory Alloy.Materials.2019,12 (16):652(IF: 3.057)
[5]X. J. Jiang, J. Huang, Y. S. Fan, J. L. Du, F. Q. Pan.One-Dimensional Macroscopic Constitutive Model for Ratcheting of Superelastic Shape Memory Alloys.ASCE Journal of engineering mechanics.2019,145 (3):1-13(IF: 2.003)
[6]X. J. Jiang,Z. L.Self-loosening Behavior of Bolt in Curvic Coupling due to Materials Ratcheting at Thread Root.Advances in Mechanical Engineering.2019,11 (4):1-16(IF: 0.831)
[7]X. J. Jiang, J. Huang, Yongkun Wang; B. T. Li, J. L. Du, P. Hao.Finite Element Analysis for the Self-Loosening Behavior of the Bolted Joint with a Superelastic Shape Memory Alloy.Materials.2018,11 (9):1520(IF: 3.057)
[8]X. J. Jiang, Y. K. Wang, F. Q. Pan.Numerical Investigation of Preload Process of Bolted Joint with Superelastic Shape Memory Alloy.Metals.2018,8 (9):730(IF: 2.117)
[9]X. J. Jiang,B. T. Li.Finite Element Analysis of a Sperelastic Shape Memory Alloy Considering the Effect of Plasticity.Journal of Theoretical and Applied Mechanics.2017,55 (4):1355-1368(IF: 0.831)
[10]X. J. Jiang, Y.S. Zhu, J. Hong, L.B. Zhu.Stiffness Analysis of Curvic Coupling in Tightening by Considering the Different Bolt Structures..ASCE Journal of Aerospace Engineering.2016,29 (3):04015076.1-04015076.14(IF: 1.761)
[11]X. J. Jiang, G. Q. Shao, L. B. Zhu.Frictionless Contact of an Elastic Punch Subject to the Normal Load and Bending Moment.Journal of Applied Mechanics and Technical Physics.2016,57 (2):359-368(IF: 0.649)
[12]X.J. Jiang, Y.S. Zhu*, J. Hong, Y.Y. Zhang, Q.H. Kan. Constitutive Model for Time-dependent Ratchetting of SS304 Stainless Steel Simulation and its Finite Element Analysis. Journal of Theoritical And Applied Mechanics, 2013, 51(1): 63-73.
[13] X.J. Jiang, Y.S. Zhu*, J. Hong, X. Chen, Y.Y. Zhang. Investigation into the Self-loosening Mechanism of the Bolts in Curvic Coupling. Engineering Failure Analysis, 2013, 32:360-373.
[14] X.J. Jiang, Y.Y. Zhang*, S.X. Yuan. Development and Validation of an Analytical Model for Stiffness Analysis of Curvic Coupling in Tightening. ASCE Journal of Aerospace Engineering, 2013, 6: 509-522.
[15] X.J. Jiang, Y.Y. Zhang*, S.X. Yuan. Analysis of the Contact Stresses in Curvic Couplings of Gas Turbine in a Blade-off Event. Strength of Materials, 2012, 6: 509-522.