基本信息

蒋敏强  男  研究员/教授(博导)

电子邮件: mqjiang(AT)imech.ac.cn
通信地址: 北京市北四环西路15号                            中国科学院力学研究所

邮政编码: 100190

研究方向

  • 固体力学
  • 冲击动力学
  • 非晶态材料力学与物理
  • 混凝土耐久性

工作与学习简历

  2017.10-至今     研究员,中国科学院力学研究所/非线性力学国家重点实验室

  2017.01-至今     博士生导师,中国科学院力学研究所 & 中国科学院大学

  2011.12-2017.10  副研究员,中国科学院力学研究所/非线性力学国家重点实验室

  2015.01-至今     岗位教授,中国科学院大学/工学院

  2013.06-2014.12  洪堡学者,德国明斯特大学/材料物理所

  2009.07-2011.11  助理研究员,中国科学院力学研究所/非线性力学国家重点实验室

  2005.09-2009.06 中国科学院力学研究所,固体力学专业 理学博士

  2002.09-2005.06 扬州大学,水工结构工程专业 工学硕士

  1998.09-2002.06 扬州大学,农业水土工程专业 工学学士

社会任职

  • 力学所学位委员会副主任
  • 非线性力学国家重点实验室副主任
  • 德国物理学会(DPG)会员
  • 美国科学促进会(AAAS)会员
  • 通讯评审或入库专家:科技部评估中心、教育部学位与研究生教育发展中心、北京市科学技术委员会、国家自然科学基金委、安徽省科学技术厅、国家电网、JKW新材料中心、中国科协青少年科技中心、中关村管委会

教授课程

弹性力学(本科生)

奖励与荣誉

  • 2021年,国家杰出青年科学基金获得者
  • 2019年,中国科学院力学研究所优秀人才培育A类计划
  • 2017年,中国科学院青年创新促进会优秀会员
  • 2015年,国家优秀青年科学基金获得者
  • 2013年,德国洪堡学者奖学金
  • 2013年,中国科学院青年创新促进会会员
  • 2012年,中国科学院卢嘉锡青年人才奖
  • 2012年,王仁青年科技奖
  • 2011年,全国百篇优秀博士学位论文提名
  • 2010年,中国科学院优秀博士学位论文
  • 2009年,中国科学院力学研究所郭永怀奖
  • 2009年,中国科学院院长奖
  • 2008年,英国麦克斯韦青年作者奖

招生/招聘

  • 在读研究生:丁淦(2015级硕博连读,与西安交通大学江峰教授联合培养)、段军(2017级硕博连读)、王晓娟(2018级硕博连读)、杨成(2018级硕博连读)、高洋(2019级硕博连读)、龚啸(2019级硕士)、段鑫淼(2021级硕士)、荆晓晖(2021级硕士)

  • 本科生:潘梁柱(2019级)

  • 毕业学生:孙星(2014级硕博连读,2019年6月毕业,入职湘潭大学);杨杰(2015级硕士,2018年6月毕业,入职中国工商银行总行本部);宋璇(2016级硕博连读,2021年6月毕业,入职中国核动力研究设计院)

  • 每年招收1-2名研究生,需有力学、材料、物理知识背景。

  • 欢迎申请应聘 博士后、特别研究助理 岗位

科研项目

  • 国家杰出青年科学基金,非晶态固体力学,起止日期:2022/01-2026/12,主持;

  • 国家优秀青年科学基金,非晶合金的力学行为,起止日期:2016/01-2018/12,主持;

  • 国家自然科学基金面上项目,金属玻璃的结构年轻化研究,起止日期:2020/01-2023/12,主持;

  • 国家自然科学基金基础科学中心项目,非线性力学的多尺度力学研究,起止日期:2020/01-2024/12,参与;

  • 国家自然科学基金重大项目,无序合金的塑性流动与强韧化机理,起止日期:2018/01-2022/12,参与;

  • 国家重点研发计划重点专项,多场耦合下金属结构材料损伤演化行为跨尺度关联评价,起止日期:2017/07-2021/06,参与;

  • 国家自然科学基金面上项目,探索非晶态合金塑性流动的结构起源,起止日期:2014/01-2017/12,主持;

  • 国家自然科学基金青年科学基金项目:非晶态合金动态断裂不稳定及其内在机理研究,起止日期:2011/01-2013/12,主持;

  • 中国科学院青年创新促进会人才专项,起止日期:2013/06-2020/06,主持;

  • 中国科学院前沿科学重点研究项目,新型高强金属材料剪切带的涌现与调控,起止日期:2017/01-2021/12,参与。

发表论文/论著

  1. Y.Y. Tan, Z.J. Chen, M.Y. Su, G. Ding, M.Q. Jiang, Z.C. Xie, Y. Gong, T. Wu, Z.H. Wu, H.Y. Wang, L.H. Dai, Lattice distortion and magnetic property of high entropy alloys at low temperatures, Journal of Materials Science & Technology 104, 236-243 (2022).
  2. J. Hong, Y.F. Qian, L. Zhang, H. Huang, M.Q. Jiang, J.W. Yan, Laser nitriding of Zr-based metallic glass: An investigation by orthogonal experiments, Surface & Coating Technology 424, 127657 (2021). 
  3. Y.F. Qian, M.Q. Jiang, Z.Y. Zhang, H. Huang, J.W. Yan, Surface functionalization of Zr-based metallic glass by nanosecond laser texuring, Vacuum 184, 110635 (2021).
  4. 蒋敏强,高洋,金属玻璃的结构年轻化及其对力学行为的影响金属学报 57, 425-438 (2021).
  5. Y.F. Qian, M.Q. Jiang, Z.Y. Zhang, H. Huang, J.W. Yan, On the transformation between micro-concave and micro-convex in nanosecond laser ablation of a Zr-based metallic glassJournal of Manufacturing Processes 68, 1114-1122 (2021).
  6. J.L. Dong, X. Song, Z.J. Wang, K.L. Xiao, Y.H. Liu, G. Wilde, X.Q. Wu, M.Q. JiangImpact resistance of single-layer metallic glass nanofilms to high-velocity micro-particle penetrationExtreme Mechanics Letters 44, 101258 (2021).
  7. G.H. Duan, M.Q. Jiang, X.F. Liu, L.H. Dai, J.X. Li, In-situ observations on shear-banding process during tension of a Zr-based bulk metallic glass composite with dendritesJournal of Non-Crystalline Solids 565, 120841 (2021).
  8. M.Y. Xie, G. Ding, M.Q. Jiang, F.X. Li, High-frequency elastic moduli and internal frictions of Zr41.2Ti13.8Cu12.5Ni10Be22.5 bulk metallic glass during glass transition and crystallizationJournal of Non-Crystalline Solids 560, 120754 (2021).
  9. H. Huang, M.Q. Jiang, J.W. Yan, New evidences for understanding the serrated flow and shear band behavior in nanoindetation of metallic glasses, Journal of Alloys and Compounds 857, 157587 (2021).
  10. J. Yang, J. Duan, Y.J. Wang, M.Q. JiangComplexity of plastic instability in amorphous solids: Insights from spatiotemporal evolution of vibrational modes, The European Physical Journal E 43, 56 (2020). 
  11. M.Q. JiangMetallic glasses: A type of promising energetic materialsScience China-Physics, Mechanics & Astronomy 63, 106131 (2020). [an invited Research Highlight]
  12. X. Song, X.Q. Wu, K.L. Xiao, C. Li, H.Y. Wang, M.Q. JiangNanosceond laser ablation of a metallic glass in water: a high time-resolved imaging studyPhilosophical Magazine 100, 2708-2720 (2020).
  13. G.X. Han, Y.P. Wu, W.D. Yan, L.Q. Shui, X.Z. Jia, E.L. Gao, M.Q. Jiang, Z. Liu, Controlled fabrication of gold nanotip arrays by nanomolding-necking technology, Nanotechnology 31, 144001 (2020).
  14. D. Han, D. Wei, J. Yang, H. L. Li, M. Q. JiangY. J. Wang, L. H. Dai, and A. Zaccone, Atomistic structural mechanism for the glass transition: Entropic contributionPhysical Review B 101014113 (2020).
  15. Y.J. Wang, D. Wei, D. Han, J. Yang, M.Q. Jiang, L.H. Dai, Does structure determine property in amorphous solids? Acta Mechanica Sinica 52( 2), 303-317 (2020). [invited review in Chinese]
  16. Q.H. Qin, S.J. Chen, K.K. Li, M.Q. Jiang, T.N. Cui, J.X. Zhang, Structural impact damage of metal honeycomb sandwich plates, Composite Structures 252, 112719 (2020).
  17. G. Ding, C. Li, A. Zaccone, W.H. Wang, H.C. Lei, F. Jiang, Z. Ling, M.Q. JiangUltrafast extreme rejuvenation of metallic glasses by shock compressionScience Advances 5, eaaw6249 (2019).
  18. J. Yang, Y.J. Wang, E. Ma, A. Zaccone, L.H. Dai, M.Q. JiangStructural Parameter of Orientational Order to Predict the Boson Vibrational Anomaly in GlassesPhysical Review Letters 122, 015501 (2019).
  19. X. Song, K.L. Xiao, X.Q. Wu, G. Wilde, M.Q. JiangNanoparticles produced by nanosecond pulse laser ablation of a metallic glass in waterJournal of Non-Crystalline Solids 517, 119-126 (2019).
  20. J.T. Fan, M.Q. Jiang, Strain hardenability of a gradient metallic alloy under high-strain-rate compressive loading. Materials & Design 170, 107695 (2019).
  21. D. Wei, J. Yang, M.Q. Jiang, L.H. Dai, Y.J. Wang, Jeppe C. Dyre, I. Douglass, Peter Harrowell, Assessing the utility of structure in amorphous materialsThe Journal of Chemical Physics 150, 114502 (2019).
  22. X. Sun, G. Ding, G. Mo, L.H. Dai, M.Q. Jiang, Dilatancy signatures of amorphous plasticity probed by X-ray synchrotron radiationIntermetallics 107, 34-38 (2019).
  23. D. Wei, J. Yang, M.Q. Jiang, B.C. Wei, Y.J. Wang, L.H. Dai, Revisiting the structure-property relationship of metallic glasses: Common spatial correlation revealed as a hidden rule, Physical Review B 99, 014115 (2019).
  24. H. Huang, M.Q. Jiang, J.W. Yan, The coupling effects of laser thermal shock and surface nitridation on mechanical properties of Zr-based metallic glass, Journal of Alloys and Compounds 770, 864-874 (2019).
  25. G.H. Duan, M.Q. Jiang, X.F. Liu, L.H. Dai, J.X. Li, Hydrogen effects on mechanical property and microstructure of a Zr-based metallic glass composite, Journal of Non-Crystalline Solids 520, 119464 (2019).
  26. F. Zeng, M.Q. Jiang, L.H. Dai, Dilatancy-induced ductile-brittle transition of shear banding in metallic glasses, Proceedings of the Royal Society A 474, 20170836 (2018).
  27. Y.Z. Lu, M.Q. Jiang, X. Lu, Z.X. Qin, Y.J. Huang, J. Shen, Dilatancy of shear transformations in a colloidal glassPhysical Review Applied 9, 014203 (2018).
  28. G.G. Ye, M.Q. Jiang, S.F. Xue, W. Ma, L. H. Dai, On the instability of chip flow in high-speed machiningMechanics of Materials 116, 104-119 (2018).
  29. H. Huang, M.Q. Jiang, J.W. Yan, Softening of Zr-based metallic glass induced by nanosecond pulsed laser irradiation, Journal of Alloys and Compounds 754, 215-221 (2018).
  30. J. Guo, R. Xiao, C.S. Tian, M.Q. Jiang, Optimizing physical aging in poly(ethylene terephthalate)-glycol (PETG), Journal of Non-Crystalline Solids 502, 15-21 (2018).
  31. 宋璇,吴先前,戴兰宏,魏延鹏,蒋敏强,纳秒脉冲激光烧蚀非晶合金的研究进展,固体力学学报 39 (5), 439-452 (2018). 
  32. M.Q. JiangM. Peterlechner, Y.J. Wang, W.H. Wang, F. Jiang, L.H. Dai, G. Wilde, Universal structural softening in metallic glasses indicated by boson heat capacity peakApplied Physics Letters 111, 261901 (2017). 
  33. B. Y. Cui, J. Yang, J. C. Qiao, M. Q. Jiang, L. H. Dai, Y. J. Wang, A. Zaccone, Atomic theory of viscoelastic response and memory effects in metallic glass, Physical Review B 96, 094203 (2017). 
  34. X. Sun, G. Mo, L.Z. Zhao, L.H. Dai, Z.H. Wu, M.Q. Jiang, Characterization of nanoscale structural heterogeneity in an amorphous alloy by synchrotron small angle X-ray scattering, Acta Physica Sinica 66, 176109 (2017). [in Chinese]
  35. 蒋敏强,戴兰宏非晶合金“拉伸转变区”模型科学通报 62, 2346-2357 (2017). 
  36. M.Q. Jiang, X.Q. Wu, Y.P. Wei, G. Wilde, L.H. Dai, Cavitation bubble dynamics during pulsed laser ablation of a metallic glass in waterExtreme Mechanics Letters 11, 24-29 (2017).
  37. M.Q. Jiang, G. Wilde, L.H. Dai, Shear band dilatation in amorphous alloysScripta Materialia 127, 54-57 (2017).
  38. M.C. Li, M.Q. Jiang, F. Jiang, L. He, J. Sun, Testing effects on hardness of a Zr-based metallic glass under nanoindentation, Scripta Materialia 138, 120-123 (2017).
  39. M.C. Li, M.Q. Jiang, G. Ding, Z.H. Peng, F. Jiang, L. He, J. Sun, The correlation between weakest configurations and yield strength of Zr-based metallic glasses, Journal of Non-Crystalline Solids 468, 52-57 (2017).
  40. M.C. Li, M.Q. Jiang, S. Yang, F. Jiang, L. He, J. Sun, Effect of strain rate on yielding strength of a Zr-based bulk metallic glass, Materials Science & Engineering A 680, 21-26 (2017).
  41. X.F. Liu, Y. Chen, M.Q. Jiang, P.K. Liaw, L.H. Dai, Turning plasticity of in-situ dendrite metallic glass composites via the dendrite-volume-fraction-dependent shear banding, Materials Science & Engineering A 680, 121-129 (2017).
  42. H. Huang, N. Jun, M.Q. Jiang,  M. Ryoko, J.W. Yan, Nanosecond pulsed laser irradiation induced hierarchical micro/nanostructures on Zr-based metallic glass substrateMaterials & Design 109, 153-161 (2016).
  43. M.C. Li, M.Q. Jiang, G. Li, L. He, J. Sun, F. Jiang, Ductile to brittle transition of fracture of a Zr-based bulk metallic glass: Strain rate effect, Intermetallics 77, 34-40 (2016).
  44. Y. J. Wang, M.Q. Jiang, Z.L. Tian, L.H. Dai, Direct atomic-scale evidence for shear-dilatation correlation in metallic glassesScripta Materialia 112, 37-41 (2016).
  45. M.Q. Jiang, M. Naderi, Y.J. Wang, M. Peterlechner, X.F. Liu, F. Zeng, F. Jiang, L.H. Dai, G. Wilde, Thermal expansion accompanying the glass-liquid transition and crystallizationAIP Advances 5, 127133 (2015).
  46. M.Q. Jiang, G. Wilde, F. Jiang, L.H. Dai, Understanding ductile-to-brittle transition of metallic glasses from shear-transformation-zone dilatation, Theoretical and Applied Mechanics Letters 5, 200-204 (2015).  
  47. M.Q. Jiang, Y.P. Wei, G. Wilde, L.H. Dai, Explosive boiling of a metallic glass superheated by nanosecond pulse laser ablationApplied Physics Letters 106, 021904 (2015). 
  48. G. Li, M.Q. Jiang, F. Jiang, L. He, J. Sun,The ductile to brittle transition behavior in a Zr-based bulk metallic glass, Materials Science & Engineering A 625, 393-402 (2015).  
  49. M.Q. Jiang, G. Wilde, L.H. Dai, Origin of stress overshoot in amorphous solidsMechanics of Materials 81, 72-83 (2015). 
  50. M.Q. Jiang, B.M. Huang, Z.J. Jiang, C. Lu, L.H. Dai, Joining of bulk metallic glass to brass by thick-walled cylinder explosionScripta Materialia 97, 17-20 (2015). 
  51. J.H. Chen, Y. Chen, M.Q. Jiang, X.W. Chen, H.F. Zhang, L.H. Dai, On the compressive failure of tungsten fiber reinforced Zr-based bulk metallic glass composite, International Journal of Solids and Structures, 69-70, 428-441 (2015).  
  52. J.H. Chen, Y. Chen, M.Q. Jiang, X.W. Chen, H.M. Fu, H.F. Zhang, L.H. Dai, Dynamic shear punch behavior of tungsten fiber reinforced Zr-based bulk metallic glass matrix composites, International Journal of Impact Engineering 79, 22-31 (2015). 
  53. F. Zeng, Y. Chen, M.Q. Jiang, L.H. Dai, Dynamic fragmentation induced by network-like shear bands in a Zr-based bulk metallic glass, Intermetallics 56, 96-100 (2015). 
  54. S.L. Cai, Y. Chen, G.G. Ye, M.Q. Jiang, H.Y. Wang, L.H. Dai, Characterization of the deformation field in large-strain extrusion machining, Journal of Materials Processing Technology 216, 48-58 (2015). 
  55. M.Q. Jiang, G. Wilde, C.B. Qu, F. Jiang, H.M. Xiao, J.H. Chen, S.Y. Fu, L.H. Dai, Wavelike fracture pattern in a metallic glass: a Kelvin-Helmholtz flow instabilityPhilosophical Magazine Letters 94, 669-677 (2014). 
  56. Z.Q. Liu, W.H. Wang, M.Q. Jiang, Z.F. Zhang, Intrinsic factor controlling the deformation and ductile-to-brittle transition of metallic glasses, Philosophical Magazine Letters 94, 658-668 (2014). 
  57. J.H. Chen, Y. Chen, M.Q. Jiang, X.W. Chen, H.M. Fu, H.F. Zhang, L.H. Dai, Direct observation on the evolution of shear banding and buckling in tungsten fiber reinforced Zr-based bulk metallic glass composite, Metallurgical and Materials Transactions A 45A, 5397-5408 (2014).  
  58. M.Q. Jiang, G. Wilde, J.H. Chen, C.B. Qu, S.Y. Fu, F. Jiang, L.H. Dai, Cryogenic-temperature-induced transition from shear to dilatational failure in metallic glassActa Materialia 77, 248-257 (2014). 
  59. 蒋敏强, 非晶合金塑性理论研究进展, 中国材料进展 33, 257-264 (2014). 
  60. W.Y. Ouyang, J.K. Chen, M.Q. Jiang, Evolution of surface hardness of concrete under sulfate attack,Construction and Building Materials 53, 419-424 (2014). 
  61. M.Q. Jiang, G. Wilde, J.B. Gao, L.H. Dai, A universal power law for metallic glassesScripta Materialia 69, 759-762 (2013). 
  62. Y. Chen, M.Q. Jiang, L.H. Dai, Collective evolution dynamics of multiple shear bands in bulk metallic glassesInternational Journal of Plasticity 50, 18-36 (2013). 
  63. G. Li, M.Q. Jiang, F. Jiang, L. He, J. Sun, Temperature-induced ductile-to-brittle transition of bulk metallic glassesApplied Physics Letters 102, 171901 (2013). 
  64. J.H. Chen, M.Q. Jiang, Y. Chen, L.H. Dai, Strain rate dependent shear banding behavior of a Zr-based bulk metallic glass composite, Materials Science and Engineering A 576, 134-139 (2013). 
  65. N. Li, Y. Chen, M.Q. Jiang, D.J. Li, J.J. He, Y. Wu, L. Liu, A thermoplastic forming map of a Zr-based bulk metallic glassActa Materialia 61, 1921-1931 (2013). 
  66. G.G. Ye, S.F. Xue, M.Q. Jiang, X.H. Tong, L.H. Dai, Modeling periodic adiabatic shear band evolution during high speed machining Ti-6Al-4V alloyInternational Journal of Plasticity 40, 39-55 (2013). 
  67. M. Q. Jiang, F, Jiang, V. Keryvin, J. X. Meng, J. Sun, and L. H. Dai, Relation between ideal and real strengths of metallic glasses, Journal of Non-Crystalline Solids 358, 3119-3213 (2012). 
  68. Y. Liu, M.Q. Jiang*, G.W. Yang, J. H. Chen, Y.J. Guan, L.H. Dai, Saffman-Taylor fingering in nanosecond pulse laser ablating bulk metallic glass in water, Intermetallics 31, 325-329 (2012). 
  69. Y. Chen, M.Q. Jiang, L.H. Dai, Temperature-dependent yield asymmetry between tension and compression in metallic glasses, Acta Physics Sinica 61, 036201 (2012). 
  70. F. Jiang, H.F. Wang, M.Q. Jiang, G. Li, Y.L. Zhao, L. He, J. Sun, Ambient temperature embrittlement of a Zr-based bulk metallic glass, Materials Science and Engineering A 549, 14-19 (2012). 
  71. G.G. Ye, S.F. Xue, W. Ma, M.Q. Jiang, Z. Ling, X.H. Tong, L.H. Dai, Cutting AISI 1045 steel at very high speedsInternational Journal of Machine Tools & Manufacture 56, 1-9 (2012). 
  72. M.Q. Jiang, L.H. Dai, Shear-band toughness of bulk metallic glassesActa Materialia 59, 4525-4537 (2011). 
  73. Y. Liu, M.Q. Jiang, G.W. Yang, Y.J. Guan, L.H. Dai, Surface rippling on bulk metallic glass under nanosecond pulse laser ablationApplied Physics Letters 99,  1919021-3 (2011). 
  74. F. Jiang, M.Q. Jiang, H.F. Wang, Y.L. Zhao, L. He, J. Sun, Shear transformation zone volume determining ductile-brittle transition of bulk metallic glassesActa Materialia 59, 2057-2068 (2011). 
  75. Y. Chen, M.Q. Jiang, Y.J. Wei, L.H. Dai, Failure criterion for metallic glassesPhilosophical Magazine 91, 4536-4554 (2011). 
  76. M.Q. Jiang, G.H. Duan, L.H. Dai, Metallic glass nanofilmsJournal of Non-Crystalline Solids 357, 1621-1627 (2011). 
  77. M.Q. Jiang, J.X. Meng, V. Keryvin, L.H. Dai, Crack branching instability and directional stability in dynamic fracture of a tough bulk metallic glass, Intermetallics 19, 1775-1779 (2011). 
  78. Y. Chen, M.Q. Jiang, L.H. Dai, How does the initial free volume distribution affect shear band formation in metallic glass? Science China-Physics Mechanics & Astronomy 54, 1488-1494 (2011). 
  79. M.Q. Jiang, Z. Ling, J.X. Meng, J.B. Gao, L.H. Dai, Nanoscale periodic corrugation to dimple transition due to “beat” in a bulk metallic glassScripta Materialia 62, 572-575 (2010). 
  80. M.Q. Jiang, L.H. Dai, Short-range-order effects on intrinsic plasticity of metallic glassesPhilosophical Magazine Letters 90, 269-277 (2010). 
  81. M.Q. Jiang, J.X. Meng, J.B. Gao, X.-L. Wang, T. Rouxel, V. Keryvin, Z. Ling, L.H. Dai, Fractals in fracture of bulk metallic glassIntermetallics 18, 2468-2471 (2010). 
  82. L. Sun, M.Q. Jiang, L.H. Dai, Intrinsic correlation between dilatation and pressure sensitivity of plastic flow in metallic glassesScripta Materialia 63, 945-948 (2010). 
  83. M.Q. Jiang, L.H. Dai, On the origin of shear banding instability in metallic glassesJournal of the Mechanics and Physics of Solids 57, 1267-1292 (2009). 
  84. M.Q. Jiang, L.H. Dai, Formation mechanism of lamellar chip in machining bulk metallic glassActa Materialia 57, 2730-2738 (2009). 
  85. M.Q. Jiang, W.H. Wang, L.H. Dai, Prediction of shear-band thickness in metallic glassScripta Materialia 60, 1004-1007 (2009). 
  86. M.Q. Jiang, S.Y. Jiang, Z. Ling, L.H. Dai, Smaller Deborah number inducing more serrated plastic flow of metallic glassComputational Materials Science 46, 767-771 (2009). 
  87. M.Q. Jiang, S.Y. Jiang, L.H. Dai, Inherent Shear-dilatation coexistence in metallic glass, Chinese Physics Letters 26, 0161031-4 (2009). 
  88. J.K. Chen, M.Q. Jiang, Long-term evolution of delayed ettringite and gypsum in portland cement mortars under sulphate erosion, Construction and Building Materials 23, 812-816 (2009). 
  89. M.Q. Jiang, Z. Ling, J.X. Meng, L.H. Dai, Energy dissipation in fracture of bulk metallic glasses via inherent competition between local softening and quasi-cleavagePhilosophical Magazine 88, 407-426 (2008). 
  90. J.X. Meng, Z. Ling, M.Q. Jiang, H.S. Zhang, L.H. Dai, Dynamic fracture instability of tough bulk metallic glassApplied Physics Letters 92, 171909 (2008). 
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