1

2023

1. Chang BX, Zheng ZJ, Zhang YR, Zhang YL, Zhao K, Yu JL. Crashworthiness design of graded cellular materials: Experimental verification of the backward design strategy. Int. J. Impact Eng., 171 (2023), 104366. (15 pages) [PDF]
DOI: 10.1016/j.ijimpeng.2022.104366
SCI: EI:

2022

2. Peng KF, Zheng ZJ, Pan H, Zhang YL, Zhao K, Yu JL. Quasi-static and dynamic compaction of granular materials: A strain-activated statistical compaction model and its evaluation. Mechanics of Materials, 167 (2022) 104250. (14 pages) [PDF]
DOI: 10.1016/j.mechmat.2022.104250
SCI: 000761008300002 EI: 20220711635603

3. Peng KF, Zheng ZJ, Chang BX, Zhou FH, Yu JL. Impact damping performance and mechanisms of 3D-printed density gradient cylindrical shell chains. Int. J. Impact Eng., 169 (2022), 104319. (15 pages) [PDF]
DOI: 10.1016/j.ijimpeng.2022.104319
SCI: EI: 20223112468499

4. 彭克锋，郑志军，周风华，虞吉林，密度梯度柱壳链的弹性波传播特性研究(Elastic wave propagation characteristics of density gradient cylindrical shell chains)，力学学报，54 8 (2022), 2131-2139. [PDF]
DOI: 10.6052/0459-1879-22-019
EI:

5. Wang GF, Zhang YL, Zheng ZJ, Chen HB, Yu JL. Crashworthiness design and impact tests of aluminum foam-filled crash boxes. Thin-Walled Structures, 180 (2022), 109937. (15 pages) [PDF]
DOI: 10.1016/j.tws.2022.109937
SCI: 000848740200005 EI: 20223412590080

6. 张元瑞, 汪高飞, 张永亮, 郑志军, 叶坚, 瞿元, 虞吉林，基于泡沫铝复合结构的汽车座椅横梁填充设计与优化(Filling design and optimization of automobile seat crossbeam based on aluminium foam composite structure)，机械强度, 44 1 (2022), 140-147. [PDF]
DOI: 10.16579/j.issn.1001.9669.2022.01.019

7. 张豪，郑志军，常白雪，虞吉林，三种蜂窝夹芯板的抗爆性能分析(Anti-explosion analysis of honeycomb sandwich panels with three kinds of core structures)，北京理工大学学报，42 6 (2022), 557-566. [PDF]
DOI: 10.15918/j.tbit1001-0645.2021.225
EI: 20222412217530

8. 张元瑞，朱玉东，郑志军，虞吉林，泡沫子弹冲击固支单梁的耦合分析模型(A coupling analysis model of clamped monolithic beam impacted by foam projectiles)，力学学报，54 8 (2022), 2161-2172. [PDF]
DOI: 10.6052/0459-1879-22-223
EI:

2021

9. Peng KF, Pan H, Zheng ZJ, Yu JL. Compaction behavior and densification mechanisms of Cu-W composite powders. Powder Technology, 382 (2021) 478–490. [PDF]
DOI: 10.1016/j.powtec.2021.01.013
SCI: 000617961700005 EI: 20210409825568

10. Peng KF, Zheng ZJ, Chang BX, Pan H, Yu JL. Wide-range control of impulse transmission by cylindrical shell chains with varying aspect ratios. Int. J. Impact Eng., 158 (2021) 104017. (16 pages) [PDF]
DOI: 10.1016/j.ijimpeng.2021.104017
SCI: 000706516300003 EI: 20213810910044

11. 彭克锋，崔世堂，潘昊，郑志军，虞吉林，冲击载荷作用下柱壳链中的弹性波传播简化模型及其解析解(Simplified model of elastic wave propagation in cylindrical shell chain under impact load and its analytical solution)，爆炸与冲击，41 1 (2021), 011403. (11 pages) [PDF]
DOI: 10.11883/bzycj-2020-0246
EI: 20210509835235

12. 汪高飞, 张永亮, 郑志军, 叶坚, 秦玉林, 柯俊, 虞吉林，泡沫铝填充非等长双方管的轴向压溃特性研究(Axial compression characteristic of non-equal length double square tube structures filled with aluminum foam)，振动与冲击, 40 24 (2021), 90-98. [PDF]

DOI: 10.13465/j.cnki.jvs.2021.012 ISSN: 1000-3835

EI: 20220111423772

13. 汪高飞，张永亮，郑志军，叶坚，曾婷，李志虎，虞吉林，泡沫铝填充吸能盒的轴向压缩性能实验研究(Experimental investigations on the quasi-static axial crushing of aluminum foam-filled crash box)，实验力学，36 5 (2021), 581-591. [PDF]

DOI: 10.7520/1001-4888-21-003 ISSN: 1001-4888

14. Zhu YD, Zheng ZJ, Zhang YL, Wu HA, Yu JL. Adhesion of elastic wavy surfaces: Interface strengthening/weakening and mode transition mechanisms. J. Mech. Phys. Solids, 151 (2021) 104402. (18 pages) [PDF]
DOI: 10.1016/j.powtec.2021.01.013
SCI: 000648430900002 EI: 20211410159407

15. Lu G, Yu JL, Zhang JJ, Yu TX. Alexander revisited: Upper- and lower-bound approaches for axial crushing of a circular tube. Int. J. Mech. Sci., 206 (2021) 106610. (13 pages) [PDF]
DOI: 10.1016/j.ijmecsci.2021.106610
SCI: 000696636500004 EI: 20212910650070

2020

16. Chang BX, Zheng ZJ, Zhang YL, Zhao K, He SY, Yu JL. Crashworthiness design of graded cellular materials: An asymptotic solution considering loading rate sensitivity. Int. J. Impact Eng., 143 (2020), 103611. [PDF]
DOI: 10.1016/j.ijimpeng.2020.103611
SCI: 000541736600014; EI: 20202108699459

2019

17. Wang SL, Zheng ZJ, Ding YY, Zhu CF, Yu JL. Dynamic crushing of cellular materials: A particle velocity-based analytical method and its application. Acta Mechanica Sinica, 35 4 (2019), 839-851. [PDF]
DOI: 10.1007/s10409-019-00859-w
SCI:000481434300011 EI: 20191906900809

18. Zhu CF, Zheng ZJ, Wang SL, Zhao K, Yu JL. Modification and verification of the Deshpande-Fleck foam model: A variable ellipticity. Int. J. Mechanical Sciences, 151 (2019), 331-343. [PDF]
DOI: 10.1016/j.ijmecsci.2018.11.028
SCI: 000457951000028; EI: 20184906206487

19. Zhu CF, Zheng ZJ, Wang SL, Zhao K, Yu JL. Revisiting the Deshpande-Fleck foam model. Key Engineering Materials, 803 (2019), 134-139. [PDF]
DOI:10.4028/www.scientific.net/KEM.803.134

20. 常白雪，郑志军，赵凯，何思渊，虞吉林，具有恒定冲击载荷的梯度泡沫金属材料设计(Design of gradient foam metal materials with a constant impact load)，爆炸与冲击，39 4 (2019), 041101. (9 pages) [PDF]
DOI: 10.11883/bzycj-2018-0431
EI: 20193107254529

21. 王鹏，朱长锋，郑志军，虞吉林，多胞材料的动态应力应变状态及其一致近似关系 (Dynamic stress-strain states of cellular materials and a uniformly approximated relation)，爆炸与冲击，39 1 (2019), 013102. (8 pages) [PDF]
DOI: 10.11883/bzycj-2017-0280
EI: 20191206653049

22. 彭克锋，潘昊，赵凯，郑志军，虞吉林，铜粉末动态压缩行为的多颗粒有限元分析(Dynamic compaction behaviors of copper powders using multi-particle finite element method)，高压物理学报，33 4 (2019), 044102. (8 pages) [PDF]
DOI: 10.11858/gywlxb.20180665

23. Ding ZY, Zheng ZJ, Yu JL. A wave propagation model of distributed energy absorption system for trains. Int. J. Crashworthiness, 24 5 (2019), 508-522. [PDF]
DOI: 10.1080/13588265.2018.1479482
EI: 20190706496205

24. 丁兆洋，郑志军，虞吉林，列车分布式吸能系统的波传播特性和参数分析 (Wave propagation characteristics and parameter analysis of the distributed energy absorption system of trains)，爆炸与冲击，39 3 (2019), 035101. (10 pages) [PDF]
DOI: 10.11883/BZYCJ-2018-0053
EI: 20192807181191

25. Ma JX, Yang XF, Sun YX, Yang JL, Yu JL. Theoretical analysis of nanoshell-assisted thermal treatment for subcutaneous tumor. J. Mechanical Behavior of Biomedical Materials, 93 (2019), 70-80. [PDF]
DOI: 10.1016/j.jmbbm.2019.01.016
SCI: 000464482900009; EI: 20190806517590

26. Luo M, Yang JL, Liu H, Lu GX, Yu JL. Energy absorption of expansion tubes using a conical-cylindrical die: Theoretical model. Int. J. Mechanical Sciences, 157-158 (2019), 207-220. [PDF]
DOI: 10.1016/j.ijmecsci.2019.04.033
SCI: 000473379100016; EI: 20191806846943

2018

27. Wang P, Zheng ZJ, Liao SF, Yu JL. Strain-rate effect on initial crush stress of irregular honeycombs under dynamic loadings and its deformation mechanism. Acta Machanica Sinica, 34 1 (2018), 117-129. [PDF]
DOI: 10.1007/s10409-017-0716-1
SCI: 000426659400010; EI: 20174304299484

28. Wang SL, Zheng ZJ, Zhu CF, Ding YY, Yu JL. Crushing and densification of rapid prototyping polylactide foam: Meso-structural effect and a statistical constitutive model. Mechanics of Materials, 127 (2018), 65-76. [PDF]
DOI: 10.1016/j.mechmat.2018.09.003
SCI: 000448097600007; EI: 20183905870590

29. 常白雪，郑志军，赵凯，虞吉林，梯度多胞材料耐撞性设计的简化模型和渐近解 (A simplified model and its asymptotic solution for the crashworthiness design of graded cellular material)，中国科学：物理学力学天文学，48 9 (2018)，094615. (9 pages) [PDF]
DOI: 10.1360/SSPMA2018-00162

30. 丁圆圆，郑志军，王士龙，周风华，虞吉林，多孔材料吸能行为对相对密度和冲击速度的依赖性 (The dependence of energy absorption behavior of cellular materials on relative density and impact velocity)，固体力学学报，39 6 (2018), 578-586. [PDF]
DOI: 10.19636/j.cnki.cjsm42-1250/o3.2018.030

2017

31. Wang SL, Ding YY, Wang CF, Zheng ZJ, Yu JL. Dynamic material parameters of closed-cell foams under high-velocity impact. Int. J. Impact Eng., 99 (2017), 111-121. [PDF]
DOI: 10.1016/j.ijimpeng.2016.09.013
SCI: 000391904200011; EI: 20164302948945

32. Yang J, Wang SL, Ding YY, Zheng ZJ, Yu JL. Crashworthiness of graded cellular materials: A design strategy based on a nonlinear plastic shock model. Materials Science and Engineering A, 680 (2017), 411-420. [PDF]
DOI: 10.1016/j.msea.2016.11.010
SCI: 000390495600048; EI: 20164903084380

33. 蔡正宇，丁圆圆，王士龙，郑志军，虞吉林，梯度多胞牺牲层的抗爆炸分析(Anti-blast analysis of graded cellular sacrificial cladding)，爆炸与冲击，37 3 (2017), 396-404. [PDF]
DOI: 10.11883/1101-1445(2017)03-0396-09
EI: 20174304299484

34. Ding ZY, Zheng ZJ, Yu JL. Effect of wave propagation in a distributed energy absorption system for trains. 2nd International Conference on Design, Mechanical and Material Engineering (D2ME 2017, Swinburne University of Technology, Australia, September 14-16, 2017). MATEC Web of Conferences, 136 (2017), 02008. (7 pages) [PDF]
DOI: 10.1051/matecconf/201713602008
EI: 20174904494482

2016

35. Ding YY, Wang SL, Zheng ZJ, Yang LM, Yu JL. Dynamic crushing of cellular materials: A unique dynamic stress-strain state curve. Mechanics of Materials, 100 (2016), 219-231. [PDF]
DOI: 10.1016/j.mechmat.2016.07.001
SCI: 000381953800019; EI: 20162902608996

36. Ding YY, Wang SL, Zhao K, Zheng ZJ, Yang LM, Yu JL. Blast alleviation of cellular sacrificial cladding: A nonlinear plastic shock model. Int. J. Applied Mechanics, 8 4 (2016), 1650057. (24 pages) [PDF]
DOI: 10.1142/S1758825116500575
SCI: 000381102200015; EI: 20162702568529

37. Ding YY, Wang SL, Zheng ZJ, Yang LM, Yu JL. Dynamic behavior of cellular materials under combined shear-compression, Applied Mechanics and Materials, 835 (2016), 649-653. [PDF]
DOI: 10.4028/www.scientific.net/AMM.835.649

38. Yang J, Wang SL, Zheng ZJ, Yu JL. Impact resistance of graded cellular metals using cell-based finite element models. Key Engineering Materials, 703 (2016), 400-405. [PDF]
DOI:10.4028/www.scientific.net/KEM.703.400
EI: 20163602770965

39. Ding YY, Wang SL, Zheng ZJ, Yang LM, Yu JL. On the stress–strain state of cellular materials under high loading rates. Theoretical and Applied Mechanics Letters, 6 3 (2016), 122-125. [PDF]
DOI: 10.1016/j.taml.2016.05.001

40. Xie ZY, Li ZB, Yu JL. An approximate solution to the plastic response of clamped sandwich beams under concentrated loading. Mechanics of Composite Materials. 52 3 (2016), 359-368. [PDF]
DOI: 10.1007/s11029-016-9588-x
SCI: 000384346800008; EI: 20162902599183

41. Yu JL, Wang P, Liao SF, Zheng ZJ. Local strain and stress calculation methods of irregular honeycombs under dynamic compression. Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE, v 9, 2016. ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2016, June 19-24, 2016, Busan, South Korea). OMAE2016-54554. [PDF]
DOI: 10.1115/OMAE201654554
EI: 20164803059339

42. Wang SL, Ding YY, Wang CF, Zheng ZJ, Yu JL. Effect of relative density on the dynamic impact behaviors of closed-cell foam. Proceedings of the International Conference on Offshore Mechanics and Arctic Engineering - OMAE, v 9, 2016. ASME 2016 35th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2016, June 19-24, 2016, Busan, South Korea). OMAE2016-54562. [PDF]
DOI: 10.1115/OMAE201654562
EI: 20164803059332

43. Li SY, Zheng ZJ, Yu, Qian. Dynamic simulation and safety evaluation of high-speed trains meeting in open air. Acta Mechanica Sinica/Lixue Xuebao, 32 2 (2016), 206-214. [PDF]
DOI: 10.1007/s10409-015-0471-0
SCI: 000376085100003; EI: 20153401180800

44. Zhang Y, L. Zhang LW, Liew KM, Yu JL Nonlocal continuum model for large deformation analysis of SLGSs using the kp-Ritz element-free method. Int. J. Non-Linear Mechanics, 79 (2016), 1-9. [PDF]
DOI: 10.1016/j.ijnonlinmec.2015.11.001
SCI: 000369209300001; EI: 20154701590185

45. Zhang Y, Zhang LW, Liew KM, Yu JL. Free vibration analysis of bilayer graphene sheets subjected to in-plane magnetic fields. Composite Structures, 144 (2016), 86-95. [PDF]
DOI: 10.1016/j.compstruct.2016.02.041
SCI: 000373481600008; EI: 20161202133832

46. Zhang Y, Zhang LW, Liew KM, Yu JL. Buckling analysis of graphene sheets embedded in an elastic medium based on the kp-Ritz method and non-local elasticity theory. Engineering Analysis with Boundary Elements, 70 (2016), 31-39. [PDF]
DOI: 10.1016/j.enganabound.2016.05.009
SCI: 000381531300004; EI: 20162502512289

2015

47. Xi HF, Tang LQ, Yu JL, et al. Low velocity penetration mechanical behaviors of aluminum foam sandwich plates at elevated temperature. Int. J. Structural Stability and Dynamics, 15 4 (2015), 1450063. [PDF]
DOI: 10.1142/S0219455414500631
SCI: 000354412300006; EI: 20152000852518

48. 李松晏，郑志军，虞吉林，高速列车吸能结构设计和耐撞性分析 (Energy-absorbing structure design and crashworthiness analysis of high-speed trains)，爆炸与冲击，35 2 (2015)，164-170。[PDF]
DOI: 10.11883/1001-1455(2015)02-0164-07
EI: 20153401180800

49. Zhang Y, Lei ZX, Zhang LW, Liew KM, Yu JL. Nonlocal continuum model for vibration of single-layered graphene sheets based on the element-free kp-Ritz method. Engineering Analysis with Boundary Elements, 56 1 (2015), 90-97. [PDF]
DOI: 10.1016/j.enganabound.2015.01.020
SCI: 000353601000009; EI: 20151100621971

50. Zhang Y, Zhang LW, Liew KM, Yu JL. Transient analysis of single-layered graphene sheet using the kp-Ritz method and nonlocal elasticity theory. Applied Mathematics and Computation, 258 5 (2015), 489-501. [PDF]
DOI: 10.1016/j.amc.2015.02.023
SCI: 000351668500045; EI: 20152100860115

2014

51. Zheng ZJ, Wang CF, Yu JL, Reid SR, Harrigan JJ. Dynamic stress-strain states for metal foams using a 3D cellular model. J. Mech. Phys. Solids, 72 (2014), 93-114. [PDF]
DOI: 10.1016/j.jmps.2014.07.013
SCI: 000343841900006; EI: 201445164225

52. Li ZB, Zheng ZJ, Yu JL, Yang J. Indentation of composite sandwich panels with aluminum foam core: An experimental parametric study. J. Reinforced Plastics and Composites, 33 18 (2014), 1671-1681. [PDF]
DOI: 10.1177/0731684414541994
SCI: 000341376400001

53. Liao SF, Zheng ZJ, Yu JL. On the local nature of the strain field calculation method for measuring heterogeneous deformation of cellular materials. Int. J. Solids Structures, 51 2 (2014), 478-490. [PDF]
DOI: 10.1016/j.ijsolstr.2013.10.019
SCI: 000329553000017; EI: 20134917049915

54.    Li ZB, Zheng ZJ, Yu JL, Qian CQ, Lu FY. Deformation and failure mechanisms of sandwich beams under three-point bending at elevated temperatures. Composite Structures, 111 1 (2014), 285–290. [PDF]
DOI: 10.1016/j.compstruct.2014.01.005
SCI: 000335486900028;        EI: 20141317508268

55. Yu JL, Liao SF, Zheng ZJ, Wang CF. Dynamic crushing of Voronoi honeycombs: Local stress-strain states. Proceedings ISIE8, Applied Mechanics and Materials, 566 (2014), 563-568. [PDF]
DOI:10.4028/www.scientific.net/AMM.566.563
EI: 20143017974278

56. Zheng ZJ, Wang XK, Yu JL. Mass impact of density-graded cellular metals in a temperature field. Proceedings ISIE8, Applied Mechanics and Materials, 566 (2014), 599-604. [PDF]
DOI:10.4028/www.scientific.net/AMM.566.599
EI: 20143017974284

57. Li ZB, Zheng ZJ, Yu JL, Yang J, Lu FY. Spherical indentation of closed-cell aluminum foams: An empirical force-depth relation. Materials Science and Engineering A, 618 (2014), 433-437. [PDF]
DOI: 10.1016/j.msea.2014.09.013
SCI: 000344439500052; EI: 201442113490

58. 丁圆圆，王士龙，郑志军，杨黎明，虞吉林，多胞牺牲层的抗爆炸分析 (Anti-blast analysis of cellular sacrificial cladding)，力学学报，46 6 (2014)，825-833。[PDF]
DOI: 10.6052/0459-1879-14-187
EI: 20145200365932

59. 李妍妍，郑志军，虞吉林，王长峰，闭孔泡沫金属变形模式的有限元分析 (Finite element analysis on deformation modes of closed-cell metallic foam)，爆炸与冲击，34 4 (2014), 464-470。[PDF]
DOI:10.11883/1001-1455(2014)04-0464-07
EI: 201442112927

60. 王长峰，郑志军，虞吉林，泡沫金属的微惯性效应和动态塑性泊松比 (Micro-inertia effect and dynamic plastic Poisson's ratio of metallic foams under compression)，爆炸与冲击，34 5 (2014)，601-607。[PDF]
DOI:10.11883/1001-1455(2014)05-0601-07

61. Ye H, Ma MY, Yu JL. Anomalies in mid-high-temperature linear thermal expansion coefficient of the closed-cell aluminum foam. Chinese Science Bulletin, 59 28 (2014), 3669-3675. [PDF]
DOI: 10.1007/s11434-014-0508-y
SCI: 000341837300020

62. Qian CQ, Zheng ZJ, Yu JL. Dynamic response of elastic beam to a moving pulse: A theoretical study on critical velocity. Applied Mechanics and Materials, 496-500 (2014), 609-612. [PDF]
DOI:10.4028/www.scientific.net/AMM.496-500.609
EI: 20140817357300

63. Qian CQ, Zheng ZJ, Yu JL, Li SY. Dynamic response of elastic beam to a moving pulse: finite element analysis of critical velocity. J. Vibroengineering, 16 7 (2014), 3197-3208. [PDF]
SCI: 000345241900004; EI: 20154501506011

64. Liew KM, Lei ZX, Yu JL, Zhang LW. Postbuckling of carbon nanotube-reinforced functionally graded cylindrical panels under axial compression using a meshless approach. Computer Methods in Applied Mechanics and Engineering, 268 (2014), 1-17. [PDF]
DOI: 10.1016/j.cma.2013.09.001
SCI: 000331348000001; EI: 20134116845007

65. Zhang LW, Lei ZX, Liew KM, Yu JL. Large deflection geometrically nonlinear analysis of carbon nanotube-reinforced functionally graded cylindrical panels. Computer Methods in Applied Mechanics and Engineering, 273 (2014), 1-18. [PDF]
DOI: 10.1016/j.cma.2014.01.024
SCI: 000334088900001; EI: 20140917391744

66.    Zhang LW, Lei ZX, Yu JL, Liew KM. Static and dynamic of carbon nanotube reinforced functionally graded cylindrical panels. Composite Structure, 111 1 (2014), 205-212. [PDF]
DOI: 10.1016/j.compstruct.2013.12.035
SCI: 000335486900020;        EI: 20141317508273

67. Lei ZX, Zhang LW, Liew KM, Yu JL. Dynamic stability analysis of carbon nanotube-reinforced functionally graded cylindrical panels using the element-free kp-Ritz method. Composite Structure, 113 1 (2014), 328-338. [PDF]
DOI: 10.1016/j.compstruct.2014.03.035
SCI: 000337198500032; EI: 20142117755296

2013

68. Li ZB, Zheng ZJ, Yu JL, Guo LW. Crashworthiness of foam-filled thin-walled circular tubes under dynamic bending. Materials and Design, 52 (2013), 1058-1064. [PDF]
DOI:10.1016/j.matdes.2013.06.067
SCI: 000323832200124; EI: 20133316611830

69. Liao SF, Zheng ZJ, Yu JL. Dynamic crushing of 2D cellular structures: Local strain field and shock wave velocity. Int. J. Impact Eng., 57 1 (2013), 7-16. [PDF]
DOI: 10.1016/j.ijimpeng.2013.01.008
SCI: 000317882500002; EI: 20131116113395

70. Zheng ZJ, Yu JL, Wang CF, Liao SF, Liu YD. Dynamic crushing of cellular materials: A unified framework of plastic shock wave models, Int. J. Impact Eng., 53 1 (2013), 29-43. [PDF]
DOI: 10.1016/j.ijimpeng.2012.06.012
SCI: 000314012400005; EI: IP52272188

71. Li ZB, Zheng ZJ, Yu JL. Low-velocity perforation behavior of composite sandwich panels with aluminum foam core. Journal of Sandwich Structures & Materials, 15 1 (2013), 92-109. [PDF]
DOI: 10.1177/1099636212454538
SCI: 000313594100005; EI: 20130415942681

72. Xie ZY, Zheng ZJ, Yu JL. Localized indentation of sandwich panels with metallic foam core: Analytical models for two types of indenters. Composites Part B, 44 (2013), 212-217. [PDF]
DOI: 10.1016/j.compositesb.2012.05.046
SCI: 000313854200025; EI: 20124215585377

73. Li ZB, Zheng ZJ, Yu JL. Indentation behavior of a closed-cell aluminum foam at elevated temperatures. Key Engineering Materials, 535-536 (2013), 219-222. [PDF]
DOI: 10.4028/www.scientific.net/KEM.535-536.219
ISTP: 000316308800049; EI: 20130616004283

74. Liao SF, Zheng ZJ, Yu JL, Li ZB. A design guide of double-layer cellular claddings for blast alleviation. Int. J. Aerospace and Lightweight Structures, 3 1 (2013), 109-133. [PDF]
DOI: 10.3850/S201042862013000550

75. Wang XK, Zheng ZJ, Yu JL. Crashworthiness design of density-graded cellular metals. Theoretical & Applied Mechanics Letters, 3 (2013), 031001. [PDF]
DOI:10.1063/2.1303101

76. 王长峰，郑志军，虞吉林，泡沫杆撞击刚性壁的动态压溃模型 (Dynamic crushing models for a foam rod striking a rigid wall)，爆炸与冲击，33 6 (2013), 587-593。[PDF]

77. Li SY, Zheng ZJ, Yu JL. Mechanical analysis of a cowcatcher for a high-speed train in crashing. Applied Mechanics and Materials, Industrial Design and Mechanics Power II, 437 (2013), 18-21. [PDF]
DOI: 10.4028/www.scientific.net/AMM.437.18
EI: 20134516951340; ISTP: 000336189200004

78. 钱春强，郑志军，虞吉林，李松晏，高速列车侧窗受交会压力波作用的动态响应 (Dynamic response of side windows of high-speed trains subjected to crossing air pressure pulse)，机械工程学报，49 9 (2013)，20-36。[PDF]
DOI: 10.3901/JME.2013.09.030
EI: 20132516433040

79. 王礼立，任辉启，虞吉林，周风华，吴祥云，唐志平，胡时胜，杨黎明，董新龙，非线性应力波传播理论的发展及应用 (Development and application of the theory of nonlinear stress wave propagation)，固体力学学报，34 (3)，217-240。[PDF]

80. Lei ZX, Liew KM, Yu JL. Buckling analysis of functionally graded carbon nanotube-reinforced composite plates using the element-free kp-Ritz method. Composite Structures, 98 (2013), 160-168. [PDF]
DOI: 10.1016/j.compstruct.2012.11.006
SCI: 000315001100018; EI: 20130215899955

81. Lei ZX, Liew KM, Yu JL. Large deflection analysis of functionally graded carbon nanotube-reinforced composite plates by the element-free kp-Ritz method. Computer Methods in Applied Mechanics and Engineering, 256 (2013), 189-199. [PDF]
DOI: 10.1016/j.cma.2012.12.007
SCI: 000316509400013; EI: 20130615998542

82. Lei ZX, Liew KM, Yu JL. Free vibration analysis of functionally graded carbon nanotube-reinforced composite plates using the element-free kp-Ritz method in thermal environment. Composite Structures, 106 (2013), 128-138. [PDF]
DOI: 10.1016/j.compstruct.201
SCI: 000325447700013; EI: 20133716727832

83. Lei ZX, Yu JL, Liew KM. Free vibration analysis of functionally graded carbon nanotube-reinforced composite cylindrical panels, Int. J. Materials Science and Engineering, 1 (2013) 36-40.
DOI: 10.12720/ijmse.1.1.36-40

2012

84. Li ZB, Zheng ZJ, Yu JL, Tang LQ. Effect of temperature on the indentation behavior of closed-cell aluminum foam. Materials Science & Engineering A, 550 (2012), 222-226. [PDF]
DOI: 10.1016/j.msea.2012.04.062
SCI: 000305918300029; EI: 20122215070824

85. Zheng ZJ, Liu YD, Yu JL, Reid SR. Dynamic crushing of cellular materials: Continuum-based wave models for the transition and shock modes. Int. J. Impact Eng., 42 (2012), 66-79. [PDF]
DOI:10.1016/j.ijimpeng.2011.09.009
SCI: 000301216100007; EI: 20120214672132

86. Xie ZY, Zheng ZJ, Yu JL. Localized indentation of sandwich beam with metallic foam core. Journal of Sandwich Structures & Materials, 14 2 (2012), 197-210. [PDF]
DOI: 10.1177/1099636211421993
SCI: 000301863700004; EI: 20121314903410

87. Li ZB, Yu JL, Guo LW. Deformation and energy absorption of aluminum foam-filled tubes subjected to oblique loading. Int. J. Mech. Sci., 54 1 (2012), 48-56. [PDF]
DOI:10.1016/j.ijmecsci.2011.09.006
SCI: 000299452300005; EI: 20120114657171

88. Zheng ZJ, Yu JL. Effect of random defects on dynamic response of honeycomb structures. Materials Science Forum. 706-709 (2012), 805-810. [PDF]
DOI:10.4028/www.scientific.net/MSF.706-709.805
EI: 20120514723552

89. 谢中友，虞吉林，郑志军，低速冲击下泡沫金属填充薄壁圆管的弯曲行为 (Bending behavior of thin-walled cylindrical tubes filled with metallic foam under low-velocity impact)，爆炸与冲击，32 2 (2012)，169-173。[PDF]

90. 李志斌，虞吉林，郑志军，郭刘伟，薄壁管及其泡沫金属填充结构耐撞性的实验研究 (An experimental study on the crashworthiness of thin-walled tubes and their metallic foam-filled structures)，实验力学，27 1 (2012)，77-86。[PDF]

91. 李志斌，虞吉林，郭刘伟，具有诱导结构的铝合金薄壁方管轴向压缩吸能性能试验研究(Experimental investigations on the energy absorption behavior of aluminum tubes with inductive structures subject to axial loading)，工程力学，29 6 (2012)，346-352。[PDF]
DOI: 10.6052/j.issn.1000-4750.2010.09.0663
EI: 20122915259809

92. Lim CW, Li C, Yu JL, Lu CF. Free torsional vibration of nanotubes based on nonlocal stress theory. Journal of Sound and Vibration, 331 12 (2012), 2798-2808. [PDF]
DOI: 10.1016/j.jsv.2012.01.016
SCI: 000302760000006; EI: 20121214886197

2011

93. Xie ZY, Yu JL, Zheng ZJ. A plastic indentation model for sandwich beam with metallic foam core. Acta Mechanica Sinica, 27 6 (2011), 963-966. [PDF]
DOI:10.1007/s10409-011-0534-9
SCI: 000298387200012; EI: IP51734229

94. 谢中友，虞吉林，郑志军，泡沫金属填充圆管横向线载荷作用下的压入分析 (Indentation analysis of metallic foam-filled cylindrical pipe under transversely linear loading)，工程力学，28 8 (2011)，248-251，256. [PDF]
EI: 20113814343545

95. Guo LW, Yu JL. Dynamic bending response of double cylindrical tubes filled with aluminum foams. Int. J. Impact Engineering, 38 2-3 (2011), 85-94. [PDF]
DOI: 10.1016/j.ijimpeng.2010.10.004
SCI: 000285820500003; EI: 20104913456327

96. Guo LW, Yu JL. Bending behavior of aluminum foam-filled double cylindrical tubes. Acta Mechanica. 222 3 (2011), 233-244. [PDF]
DOI:10.1007/s00707-011-0537-4
SCI: 000297118500004; EI: 20115014589547

97. Wang XK, Zheng ZJ, Yu JL, Wang CF. Impact resistance and energy absorption of functionally graded cellular structures. Appl. Mech. Mater., 69 (2011), 73-78. [PDF]
DOI:10.4028/www.scientific.net/AMM.69.73
EI: 20113114200326

98. Wang CF, Zheng ZJ, Yu JL. Micro-inertia effect and dynamic Poisson’s ratio of closed-cell metallic foams under compression. Advances in Heterogeneous Material Mechanics 2011, eds. J.H. Fan, J.Q. Zhang, H.B. Chen, Z.H. Jin, DEStech Publications, Lancaster, USA (2011), pp 266-269. [PDF]
ISTP: 000297713100063

99. 郭刘伟，虞吉林，杨国栋，泡沫铝夹芯双圆管结构的准静态轴向压缩性能研究(On the quasi-static axial crushing behavior of foam-filled double cylindrical tubes)，实验力学，26 2 (2011)，181-189。[PDF]

100. Li C, Lim CW, Yu JL. Dynamics and stability of transverse vibrations of nonlocal nanobeams with a variable axial load. Smart Mater. Struct., 20 1 (2011), 015023. [PDF]
DOI: 10.1088/0964-1726/20/1/015023
SCI: 000285579500028; EI: 20110813679372

101. Li C, Lim CW, Yu JL, Zeng QC. Analytical solutions for vibration of simply supported nonlocal nanobeams with an axial force. Int. J. Structural Stab. and Dynamics, 11 2 (2011), 257-271. [PDF]
DOI: 10.1142/S0219455411004087
SCI: 000289154300004; EI: 20111413897232

102. Li C, Lim CW, Yu JL, Zeng QC. Transverse vibration of pre-tensioned nonlocal nanobeams with precise internal axial loads. Sci. China Tech. Sci., 54 8 (2011), 2007-2013. [PDF]
DOI: 10.1007/s11431-011-4479-9
SCI: 000293513000008; EI: 20113314236868

103. Li C, Zheng ZJ, Yu JL, Lim CW. Static analysis of ultra-thin beams based on semi-continuum models. Acta Mechanica Sinica. 27 5 (2011), 713-719. [PDF]
DOI: 10.1007/s10409-011-0453-9
SCI: 000298393900012; EI: IP51439465

104. Li C, Lim CW, Yu JL. Twisting statics and dynamics for circular elastic nanosolids by nonlocal elasticity theory. Acta Mechanica Solida Sinica, 24 6 (2011), 484-494. [PDF]
SCI: 000299865400002; EI: 20120114665425

2010

105. Guo LW, Yu JL, Li ZB. Experimental studies on the quasi-static bending behavior of double square columns filled with aluminum foams. Acta Mechanica, 213 (2010), 349-358. [PDF]
DOI: 10.1007/s00707-010-0281-1
SCI: 000281038600008; EI: IP50824774

106. 寇东鹏，虞吉林，双重孔径泡沫金属材料的强度和热性能多目标优化设计 (Multi-objective optimum design for strength and heat insulation of metal foam with dual-size cellular structure)，金属学报，46 1 (2010)，104-110。 [PDF]
DOI:10.3724/SP.J.1037.2009.00414
SCI: 000274823200017; EI: 20101312808628

107. Yu JL, Wang EH, Guo LW. A theoretical and experimental study on the constitutive model of aluminium foams. Materials Science Forum, 638-642 (2010), 1878-1883. (Invited presentation at THERMEC’2009) [PDF]
DOI: 10.4028/www.scientific.net/MSF.638-642.1878
EI: 20100612692971; ISTP: BQH93

108. Guo LW, Yu JL. Bending response of sandwiched double tube structures with aluminium foam core. ISCM II and EPMESC XII (Nov.30-Dec.3, 2009, Hong Kong – Macau), Part One, AIP CP1233, eds Lu JWZ, Leung AYT, Iu VP, Mok KM, American Institute of Physics, Melville, New York (2010), pp 602-607. [PDF]

ISTP: 000283003800103

109. Yu JL, Zheng ZJ. Dynamic crushing of 2D cellular metals: Microstructure effects and rate-sensitivity mechanisms. Plenary lecture presented in ICMMS 2010, 17-19 December 2010, Guangzhou China. Acta Mechanica Solida Sinica, 23 S1 (2010), 45-55. [PDF]

110. 郭刘伟，虞吉林，泡沫铝夹心双方管结构准静态轴压性能的实验研究 (Experimental investigations on the quasi-static axial crushing of foam-filled double square columns)，实验力学，25 3 (2010)，271-278。[PDF]

111. Lim CW, Li C, Yu JL. Dynamic behaviour of axially moving nanobeams based on nonlocal elasticity approach. Acta Mechanica Sinica, 26 (2010), 755-765. [PDF]
DOI: 10.1007/s10409-010-0374-z
SCI: 000282089700011; EI: 20104513357721

112. Lim CW, Li C, Yu JL. Free vibration of pre-tensioned nanobeams based on nonlocal stress theory. J. Zhejiang Univ.-Sci. A (Appl Phys & Eng), 11 1 (2010), 34-42. [PDF]
DOI: 10.1631/jzus.A0900048
SCI: 000274457700005; EI: 20100512683085

2009

113. Liu YD, Yu JL, Zheng ZJ, Li JR. A numerical study on the rate sensitivity of cellular metals. Int. J. Solids Structures, 46 22-23 (2009), 3988-3998. [PDF]
DOI:10.1016/j.ijsolstr.2009.07.024
SCI: 000271483900006; EI: 20093912335165

114. 寇东鹏，虞吉林，郑志军，随机缺陷对蜂窝结构动态行为影响的有限元分析 (Effect of randomly removing cell walls on the dynamic crushing behaviour of honeycomb structures)，力学学报，41 6 (2009)，859-868。[PDF]
EI: 20095112567483

115. Lin J, Zheng ZJ, Yu JL, Bai YL. A thin liquid film and its effects in an atomic force microscopy measurement. Chinese Physics Letters, 26 8 (2009), 086802. [PDF]
DOI: 10.1088/0256-307X/26/8/086802
SCI: 000268662800075

116. Lim CW, Li C, Yu JL. The effects of stiffness strengthening nonlocal stress and axial tension on free vibration of cantilever nanobeams. Interaction and Multiscale Mechanics, 2 3 (2009), 223-233. [PDF]

2008

117. Kou DP, Li JR, Yu JL, Cheng HF. Mechanical behavior of open-cell metallic foams with dual-size cellular structure. Scripta Materialia, 59 5 (2008), 483-486. [PDF]
DOI:10.1016/j.scriptamat.2008.04.022
SCI: 000258165100002; EI: 082711353734

118. Yu JL, Wang EH, Li JR, Zheng ZJ. Static and low-velocity impact behavior of sandwich beam with closed-cell aluminum foam core in three-point bending. Int. J. Impact Engineering, 35 8 (2008), 885-894. [PDF]
DOI: 10.1016/j.ijimpeng.2008.01.006
SCI: 000257000100020; EI: 082111266070

119. Yu JL, Wang EH, Li JR. An experimental study on the quasi-static and dynamic behavior of aluminum foams under multi-axial compression. Advances in Heterogeneous Material Mechanics 2008, eds. JH Fan, HB Chen. DEStech Publications, Lancaster (2008), pp. 879-882. [PDF]
ISTP: 000257167700220

120. 刘耀东，虞吉林，郑志军，惯性对多孔金属材料动态力学行为的影响 (Effect of Inertia on the Dynamic Behavior of Cellular Metal)，高压物理学报，39 2 (2008)，118-124。 [PDF]
DOI: CNKI:SUN:GYWL.0.2008-02-001
EI: 083511493938

2007

121. 郑志军，虞吉林，任意轴对称弹性体吸附接触的广义Maugis模型 (A generalized Maugis model for adhesive contact of arbitrary axisymmetric elastic objects)，力学学报，39 3 (2007)，382-388。[PDF]
DOI: CNKI:ISSN:0459-1879.0.2007-03-012
EI: 072510663315

122. 郑志军，虞吉林，李剑荣，林静，幂次型表面的轴对称弹性体之间的吸附接触 (Adhesive contact of power-law axisymmetric elastic objects)，中国科学技术大学学报，37 10 (2007), 1293-1299。[PDF]
DOI: CNKI:SUN:ZKJD.0.2007-10-022

123. Zheng ZJ, Yu JL. Using the Dugdale approximation to match a specific interaction in the adhesive contact of elastic objects. J. Colloid and Interface Science, 310 1 (2007), 27-34. [PDF]
DOI: 10.1016/j.jcis.2007.01.042
SCI: 000245967500004; EI: 071610552302

124. Yu JL, Liu YD, Zheng ZJ, Li JR, Yu TX. Influences of inertia and material property on the dynamic behavior of cellular metals. IUTAM Symposium on Mechanical Properties of Cellular Materials (September 17-20, 2007, LMT-Cachan, Cachan, France), eds H. Zhao and N.A. Fleck, Springer, pp. 149-157. [PDF]
ISBN: 978-1-4020-9403-3

125. 谢中友，虞吉林，李剑荣，泡沫铝填充圆管三点弯曲的实验研究 (An experimental study on three-point bending of aluminum alloy foam-filled cylindrical aluminum alloy pipe)，实验力学，22 2 (2007)，104-110。[PDF]
DOI: CNKI:ISSN:1001-4888.0.2007-02-001

126. 谢中友，李剑荣，虞吉林，泡沫铝填充薄壁圆管三点弯曲实验的数值模拟 (Numerical simulation of three-point bending experiments of thin-walled cylindrical tubes filled with aluminum foam)，固体力学学报，28 3 (2007)，261-265。[PDF]
DOI: CNKI:SUN:GTLX.0.2007-03-009
EI: 074310890733

2006

127. Yu JL, Li JR, Hu SS, Strain-rate effect and micro-structural optimization of cellular metals. Mechanics of Materials, 38 1-2 (2006), 160-170. [PDF]
DOI: 10.1016/j.mechmat.2005.05.018
SCI&ISTP: 000233519500016; EI: 05479486618

2005

128. Li JR, Yu JL, Computational simulations of intergranular fracture of polycrystalline materials and size effect. Engineering Fracture Mechanics, 72 (2005), 2009-2017. [PDF]
DOI: 10.1016/j.engfracmech.2004.10.016
SCI&ISTP: 000229496800015; EI: 05209105096

129. 李剑荣，虞吉林，随机晶界分布和连通性对晶间破坏行为的影响 (The impact of random grain boundary distribution and connectivity on intergranular fracture of polycrystalline materials)，固体力学学报，26 2 (2005), 230-234。[PDF]
DOI: CNKI:ISSN:0254-7805.0.2005-02-019

130. 许坤，寇东鹏，王二恒，虞吉林，泡沫铝填充薄壁方形铝管的静态弯曲崩毁行为 (Bending collapse behavior of square aluminum extrusions with aluminum foam filler)，固体力学学报，26 3 (2005), 261-266。[PDF]
DOI: CNKI:ISSN:0254-7805.0.2005-03-002

131. Zheng ZJ, Yu JL, Li JR, Dynamic crushing of 2D cellular structures: A finite element study. Int. J. Impact Engineering, 32 1-4 (2005), 650–664. [PDF]
DOI: 10.1016/j.ijimpeng.2005.05.007
SCI&ISTP: 000233975800040; EI: 05479499599

132. Wei ZG, Yu JL, Batra RC, Dynamic buckling of thin cylindrical shells under axial impact. Int. J. Impact Engineering, 32 1-4 (2005), 575-592. [PDF]
DOI: 10.1016/j.ijimpeng.2005.07.008
SCI&ISTP: 000233975800034; EI: 05479499593

2004

133. 虞吉林，王二恒，李剑荣，泡沫金属材料和结构的冲击力学行为 (Dynamic behavior of cellular metals and structures)，应用力学进展，洪友士主编，祝贺郑哲敏先生八十华诞应用力学报告会邀请报告，科学出版社(2004)，pp 63-75。[PDF]

134. 王二恒，李剑荣，虞吉林，程和法，硅橡胶填充多孔金属材料静态压缩力学行为研究 (Investigation of static compression behavior of cellular materials with silicate rubber filler)，中国科学技术大学学报，34 5 (2004)，575-580。[PDF]
DOI: CNKI:ISSN:0253-2778.0.2004-05-009

135. 王二恒，虞吉林，王飞，孙亮，泡沫铝材料准静态本构关系的理论和实验研究 (A theoretical and experimental study on the quasi-static constitutive model of aluminum foams)，力学学报，36 6 (2004)，673-679。[PDF]
DOI: CNKI:ISSN:0459-1879.0.2004-06-004

2003

136. Li JR, Yu JL, Wei ZG. Influence of specimen geometry on adiabatic shear instability of tungsten heavy alloys. Int. J. Impact Engineering, 28 3 (2003), 303-314. [PDF]
DOI: 10.1016/S0734-743X(02)00022-2
SCI &ISTP: 000179696900006; EI: 02507264036

137. Yu JL, Wang X, Wei ZG, Wang EH. Deformation and failure mechanism of dynamically loaded sandwich beams with aluminium-foam core. Int. J. Impact Engineering, 28 3 (2003), 331-347. [PDF]
DOI: 10.1016/S0734-743X(02)00053-2
SCI&ISTP: 000179696900008; EI: 02507264038

138. Li JR, Cheng HF, Yu JL, Han FS, Effect of dual-size cell mix on the stiffness and strength of open-cell aluminum foams. Materials Science and Engineering A, 362 1-2 (2003), 240-248. [PDF]
DOI: 10.1016/S0921-5093(03)00570-7
SCI: 000186913300025; EI: 03457714371

2002

139. 李剑荣，虞吉林，魏志刚，冲击载荷下钨合金圆台试件绝热剪切变形局部化的数值模拟 (Numerical simulation of adiabatic shear localization in truncated-conic specimens of tungsten heavy alloys under impact loading)，爆炸与冲击，22 3 (2002)，257-262。[PDF]
DOI: CNKI:ISSN:1001-1455.0.2002-03-011
EI: 02447178369

140. 王飞，庄守兵，虞吉林，用均匀化理论分析蜂窝结构的等效弹性参数 (Application of homogenization FEM to the equivalent elastic constants of honeycomb structures)，力学学报，34 6 (2002)，914-922。[PDF]
DOI: CNKI:ISSN:0459-1879.0.2002-06-008

2001

141. Wei ZG, Yu JL, Li JR, Li YC, Hu SS, Influence of stress condition on adiabatic shear localization of tungsten heavy alloys. Int. J. Impact Engineering, 26 1-10 (2001), 843-852. [PDF]
DOI: 10.1016/S0734-743X(01)00137-3
SCI&ISTP: 000173237600075

142. 李剑荣，王曦，虞吉林，粗晶粒Al多晶试件拉伸变形局部化的数值模拟 (Numerical simulation of deformation localization in coarse-grained aluminum specimens)，金属学报，37 7 (2001)，717-722。[PDF]
DOI: CNKI:ISSN:0412-1961.0.2001-07-007
SCI: 000172767000008 EI: 01416684602

143. 王飞，李剑荣，虞吉林，铝蜂窝结构单向压缩、失稳和破坏机制研究 (A study of instability and collapse of aluminum honeycombs under uniaxial compression)，力学学报，33 6 (2001), 741-748。[PDF]
DOI: CNKI:ISSN:0459-1879.0.2001-06-002

144. 王曦，虞吉林，泡沫铝的单向力学行为 (Uniaxial mechanical behavior of aluminum foam)，实验力学，16 4 (2001)，438-443。[PDF]
DOI: CNKI:ISSN:1001-4888.0.2001-04-013

2000

145. 赵爱红，虞吉林，准脆性材料的细观损伤演化模型 (A micro-mechanical damage model for quasi-brittle materials)，清华大学学报(自然科学版)，40 5 (2000), 88-91。[PDF]
DOI: CNKI:ISSN:11-5154/N.0.2000-05-028
EI: 01015502076

146. Alves M, Yu JL, Jones N. On the elastic modulus degradation in continuum damage mechanics. Computers & Structures, 76 6 (2000), 703-712. [PDF]
DOI: 10.1016/S0045-7949(99)00187-X
SCI: 000087520200003; EI: 00065212621

147. Yu JL, Dong XL, Zhang JY. A study of adiabatic shear plugging in Ti6Al4V alloy. Key Engineering Materials，177-180 (2000), 387-392.
SCI&ISTP: 000089404200061; EI: 00065207200

148. Wei ZG, Yu JL, Hu SS, Li YC. Influence of microstructure on adiabatic shear localization of pre-twisted tungsten heavy alloys. Int. J. Impact Engineering, 24 6-7 (2000), 747-758. [PDF]
DOI: 10.1016/S0734-743X(00)00011-7
SCI&ISTP: 000087666100017; EI: 00085268942

149. Zhao AH, Yu JL. The overall elastic moduli of orthotropic composite and description of orthotropic damage of materials. Int. J. Solids Structures, 37 45 (2000), 6755-6771. [PDF]
DOI: 10.1016/S0020-7683(99)00226-7
SCI: 000089337500008; EI: 00095338416

150. 马薇，李世玮，虞吉林，一种新颖的四梁式压电薄膜微型陀螺 (A new four-beam sensor piezoelectric microgyroscope)，中国科学技术大学学报，30 4 (2000)，401-405。[PDF]
DOI: CNKI:ISSN:0253-2778.0.2000-04-003

151. Ma W, Yu JL, Zhou HY, Zhu XD, Zhan RJ. Adhesion’s macroscopic exhibition of CVD diamond films on Si substrate and its relationship with film’s microstructure. Proc. Inter. Symp. on Electronic Materials and Packaging (EMAP2000), eds. Kim JK, Teng A, Lee SWR, IEEE 00EX458 (2000), pp 394-397. [PDF]
DOI: 10.1109/EMAP.2000.904187
ISTP: 000167673300062

1990-1999

152. 赵爱红，虞吉林，含正交排列夹杂和缺陷的材料的等效弹性模量和损伤 (The overall elastic moduli and damage of the materials containing orthogonal inclusions and defects)，力学学报，31 4 (1999)，475-483。[PDF]
DOI: CNKI:ISSN:0459-1879.0.1999-04-011

153. 董新龙，虞吉林，胡时胜，王悟，王礼立，高加载率下II型试样的动态应力强度因子及断裂行为 (Stress intensity factor and fracture behavior for Mode II crack specimen under high shear loading rate)，爆炸与冲击，18 1 (1998)，62-68。[PDF]
DOI: CNKI:ISSN:1001-1455.0.1998-01-009
EI: 98034133549

154. Yu JL, Jones N. Numerical simulation of impact loaded steel beams and the failure criteria. Int. J. Solids Structures, 34 30 (1997), 3977-4004. [PDF]
DOI: 10.1016/S0020-7683(96)00228-4
SCI: A1997YB66600005; EI: 97113912851

155. 虞吉林，黄锐，冲击载荷下软钢梁早期响应的数值模拟和简化模型 (Numerical simulation and a simplified model for the early-stage response of a mild steel beam under impact loading)，力学学报，29 4 (1997)，464-469. [PDF]
DOI: CNKI:ISSN:0459-1879.0.1997-04-009

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158. 虞吉林，裂纹的起始、扩展和分叉 (Initiation, extension and bifurcation of cracks)，材料和结构的不稳定性，科学出版社(1993)，pp 98-108。

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161. 虞吉林，郑哲敏，材料的非均匀性对裂纹尖端附近应力分布的影响 (Influence of inhomogeneity of materials on stress distribution near a crack tip)，力学学报，21 5 (1989)，556-566。

162. 虞吉林，郑哲敏，一种非局部弹塑性连续体模型与裂纹尖端附近的应力分布 (A model of nonlocal elastic-plastic continuum applied to the stress distribution near a crack tip)，力学学报，16 5 (1984)，485-494。[PDF]

163. 虞吉林，王礼立，朱兆祥，杆中弹塑性边界传播速度的确定 (Determination of propagation velocity of elastic-plastic boundaries in a bar)，固体力学学报，No.1 (1984)，16-26。

164. 虞吉林，王礼立，朱兆祥，杆中应力波传播过程中弹塑性边界的基本性质 (Basic properties of elastic-plastic boundaries in stress wave propagation in a bar)，固体力学学报，No.3 (1982)，313-324。