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断裂和损伤力学

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  1. Lu, T.J., 'Stress concentrations and hybrid effect in hybrid composite laminates', Collection of Outstanding Student Papers, Xian Jiaotong University Press, 121-127 (in Chinese), 1984.   

  2.  Chow, C.L. & Lu, T.J., 'A normative representation of stress and strain for damage mechanics', Theor. Appl. Frac. Mech.12, 161-187, 1989.

  3.  Chow, C.L. & Lu, T.J., 'On evolution laws of anisotropic damage', Eng. Frac. Mech.34, 679-701, 1989.

  4. 卢天健,顾星若,稽醒,'环氧复合材料基体对层间剪切强度的影响',西安交通大学学报 24, 23-29, 1990.

  5. Lu, T.J. & Chow, C.L., 'Multi-axial creep rupture in polymethyl-methacrylate', J. Mater. Sci. Lett., 9, 1211-1214, 1990.

  6. Lu, T.J. & Chow, C.L., 'Influence of non-singular stress terms on small scale yielding near crack tip', in Computer Aided Assessment and Control of Localised Damage Assessment, Vol. 2, pp. 33-46, 1990.

  7.  Chow, C.L. & Lu, T.J., 'On the HRR near-tip singularity fields', J. Mater. Sci. Lett.9, 879-882, 1990.

  8.  Chow, C.L. & Lu, T.J., 'A modified Dugdale model for crack-tip plasticity and the related problems', Eng. Frac. Mech.37, 551-568, 1990.

  9.  Chow, C.L. & Lu, T.J., 'A unified approach to fatigue crack propagation in metals and polymers', J. Mater. Sci. Lett.9, 1427-1430, 1990.0

  10.  Chow, C.L. & Lu, T.J., 'Crack size limit and its effect on the shape of local yielding zone at a crack tip', Proc. Inst. Mech. Eng., Part C-Mech. Eng.204, 219-232, 1990.

  11. Lu, T.J. & Chow, C.L., 'Damage modelling in orthotropic composite plates with circular cutouts', in ASME MD-Vol. 29, Plastics and Plastic Composites: Materials, Properties, Part Performance, and Process Simulation, 203-229, 1991.

  12. Lu, T.J. & Chow, C.L., 'Cyclic J-integral in relation to fatigue crack initiation and propagation', Eng. Frac. Mech.39, 1-20, 1991.

  13.  Chow, C.L. & Lu, T.J., 'Characterisation of fatigue crack propagation in short fibre reinforced thermoplastics - a unified approach', J. Reinf. Plast. Comp.10, 58-83, 1991.

  14.  Chow, C.L. & Lu, T.J., 'A damage mechanics approach to crack tip shielding in brittle solids', Int. J. Frac.50, 79-114, 1991.

  15.  Chow, C.L. & Lu, T.J., 'Fracture toughness evaluation for short glass fibre reinforced composites', J. Mater. Sci. 26, 6553-6564, 1991.

  16. Lu, T.J. & Chow, C.L., 'On constitutive equations of inelastic solids with anisotropic damage', Theor. Appl. Frac. Mech.14, 187-218, 1991.

  17. Lu, T.J. & Chow, C.L., 'An analytical and experimental study of mixed-mode ductile fracture under non-proportional loading', Int. J. Damage Mech.1, 191-236, 1991.

  18.  Chow, C.L. & Lu, T.J., 'A damage mechanics approach to ductile failure analysis in notched plates', in ASME MD-Vol. 30, Recent Advances in Damage Mechanics and Plasticity, 21-35, 1992.

  19. Lu, T.J. & Chow, C.L., 'Fatigue crack propagation in metals and polymers with a unified formulation', J. Tire Sci. Tech.12, 236-257, 1992.

  20. Lu, T.J. & Chow, C.L., 'A constitutive theory of matrix cracking and interply delamination in orthotropic laminated composites', J. Reinf. Plast. Comp.11, 494-536, 1992.

  21.  Chow, C.L. & Lu, T.J., 'A comparative study of damage models for fracture initiation under gross yielding', Int. J. Frac.53, 43-75, 1992.

  22. 卢天健,周其隆,“损伤力学中的能量假设及其实验验证”,《应用力学学报》,1992,9(4):9-22

  23. Lu, T.J. & Chow, C.L., 'Analysis of failure properties and strength of structural adhesive joints with damage mechanics', Int. J. Damage Mech.1, 404-434, 1992.

  24. Lu, T.J., Xia, Z.C. & Hutchinson, J.W., 'Delamination of beams under transverse shear and bending', Mater. Sci. Eng. A188, 102-113, 1994.

  25. Lu, T.J. & Hutchinson, J.W., 'Role of fibre-stitching in eliminating transverse fracture in cross-ply ceramic composites', J. Amer. Ceram. Soc.78, 251-253, 1995.

  26. Lu, T.J., 'Crack branching in all-oxide ceramic composites', J. Amer. Ceram. Soc.79, 266-274, 1996.

  27.  Chen, Y.H. & Lu, T.J., “Conservation laws of the Jk-vector for microcrack damage in piezoelectric materials”, Int. J. Solids Struc., 38, 3233-3249, 2001.

  28.  Chen, C., Lu, T.J. & Fleck, N.A., “The mode I crack growth resistance of metallic foams”, J. Mech. Phys. Solids49, 231-259, 2001.

  29.  Chen, Y.-H. & Lu, T.J., "On the path dependence of J-integral in notch problems", Int. J. Solids Struct.41, 607-618,2004.

  30.  Ma, L.F., Lu, T.J. & Korsunsky, A.M., “Vector J-integral analysis of crack interaction with pre-existing singularities”, ASME J. Appl. Mech.73(5), 876-883, 2006.

  31.  Jeon, I., Asahina, T., Kang, K.-J., Im, S. & Lu, T.J., “Finite element simulation of the plastic collapse of closed-cell aluminum foams with X-ray computed tomography”, Mech. Mater. 42(3), 227-236, 2010.

  32.  Wang, F., Huang, P. & Lu, T.J., “Surface-effect territory in small volume creep deformation”, J. Mater. Res.24(11), 3277-3285, 2010.

  33.  Huang, P., Wang, F., Xu, M., Xu, K.W. & Lu, T.J., “The dependence of strain rate sensitivity upon deformed-microstructures in nanocrystalline Cu”, Acta Mater. 58(15), 5196-5205, 2010.

  34. 张钱诚,韩云杰,卢天健,“超轻X型点阵芯体金属夹层板的剪切疲劳机制”,《西安交通大学学报》,201044(11): 61-65

  35.  Huang, P., Wang, F., Xu, M., Lu, T.J. & Xu, K.W., “Strain rate sensitivity of unequal grained nano-multilayers”, Mater. Sci. Eng. A528(18), 5908-5913, 2011.

  36.  Wang, F., Huang, P., Xu, M., Lu, T.J. & Xu, K.W., “Shear banding deformation in Cu/Ta nano-multilayers”, Mater. Sci. Eng. A528(24), 7290-7294, 2011.

  37.  Cui, X.D., Zhang, Y.H., Zhao, H., Lu, T.J. & Fang, D.N., “Stress concentration in two-dimensional lattices with imperfections”, Acta Mechanica216, 105-122, 2011.

  38.  Xiong, Q.L., Tian, X.G. & Lu, T.J., “Atomistic modeling of electron relaxation effect on femtosecond laser-induced ablation and spallation of gold films”, J. Appl. Phys.112, 024313, 2012, doi: 10.1063/1.4739256.

  39.  Wang, F., Li, B., Gao, T.T., Huang, P., Xu, K.W. & Lu, T.J., “Activation volume and strain rate sensitivity in plastic deformation of nanocrystalline Ti”, Surface Coatings Tech. 228, S254-256, 2013. (IF 1.8)

  40.  Wang, F., Li, J.M., Huang, P., Wang, W.L., Lu, T.J. & Xu, K.W., “Nanoscale creep deformation in Zr-based metallic glass”, Intermetallics 38, 156-160, 2013.

  41.  Wang, F., Zhang, L.F., Huang, P., Xie, J.Y., Lu, T.J. & Xu, K.W., “Microstructure and flow stress of nanoscale Cu/Nb multilayers”, J. Nanomater. 2013, Article ID 912548, 2013.  

  42.  Xie, J.Y., Wang, F., Huang, P., Zhang, L.F., Lu, T.J. & Xu, K.W., “Structure transformation and coherent interface in large-lattice-mismatched nanoscale multilayers”, J. Nanomater. 2013, Article ID 959738, 2013.  

  43.  Wang, F., Zhao, J., Huang, P., Lu, T.J. & Xu, K.W., “What is behind stress-driven grain growth in nanocrystalline metals?”, J. Nanomater. 2013, Article ID 934986, 2013.

  44.  Zhou Q., Zhao J., Xie J.Y., Wang F., Huang P., Lu, T.J. & Xu, K.W., “Grain size dependent strain rate sensitivity and activation volume in nanocrystalline body-centered cubic metal thin films” Mater. Sci. Eng. A 608, 184-189, 2014.

  45.  Zhao, J., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Depth dependent strain rate sensitivity and inverse indentation size effect of hardness in body-centered cubic nanocrystalline metals”, Mater. Sci. Eng. A615, 87-91, 2014.

  46.  Zhou, Q., Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “The mechanical behavior of nanoscale metallic multilayers: a survey” (invited contribution for 60th anniversary), Acta Mech. Sinica 31(3), 319-337, 2015.(Top 10 most read articles published in 2015.)

  47.  Ma, F., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Hillock growth in CuZr metallic glass”, Thin Solid Films 589, 681-685, 2015.

  48.  Gu, C., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Altering strength and plastic deformation behavior via alloying and laminated structure in nanocrystalline metals”, Mater. Sci. Eng. A640, 24-32, 2015.

  49.  Cui, Y., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “The hardnes and related deformation mechanisms in nanoscale crystalline-amorphous multilayers”, Thin Solid Films 584, 270-276, 2015.

  50.  Zhou, Q., Li, J.J., Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “Strain rate sensitivity of Cu/Ta multilayered films: Comparison between grain boundary and heterophase interface”, Scripta Mater. 111, 123-126, 2016.

  51.  Gu, C., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Effects of Cu layers on the deformation behavior of CuTa/Cu multilayer thin films”, Mater. Sci. Eng. A649, 9-17, 2016.

  52.  Xue, F., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Structural inhomogeneity and strain rate dependent indentation size effect in Zr-based metallic galss”, Mater. Sci. Eng. A655, 373-378, 2016.

  53.  Cui, Y., Huang, P., Torrents Abad, O., Wang, F., Lu, T.J., Xu, K.W. & Wang J,“Plastic deformation modes of CuZr/Cu multilayers”, Scientific Reports 6, 23306, 2016.

  54.  Gu, C., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Structure-dependent size effects in CuTa/Cu nanolaminates”, Mater. Sci. Eng. A658, 381-388, 2016.

  55. Zhou, Q., Wang, F., Huang, P., Lu, T.J. & Xu, K.W.,“Length-scale-dependent deformation mechanism of CuX (X=Ru, W) multilayer thin films”, Mater. Sci. Eng. A664, 206-214, 2016.

  56. Zhou, Q., Wang, F., Huang, P., Lu, T.J. & Xu, K.W.,Corrigendum to“Length-scale-dependent deformation mechanism of CuX (X=Ru, W) multilayer thin films”, Mater. Sci. Eng. A664, 2016.

  57.  Chen, Z.Q., Li, H., Wang, F., Huang, P., Lu, T.J. & Xu, K.W., “Suppression of annealing-induced embrittlement in bulk metallic glass by surface crystalline coating”, Mater. Design 109, 179-185, 2016.

  58. Zhou, Q., Li, Y., Huang, P., Xu, K.W, Wang, F. & Lu, T.J., “Strengthening mechanism of super-hard nanoscale Cu/Al multilayers with negative enthalpy of mixing”, APL Materials 4, 096102, 2016.

  59. Guo, T., Huang, P.,  Xu, K.W., Wang, F. & Lu, T.J. ,Solid solution effects on hardness and strain rate sensitivity of nanocrystalline NiFe alloy”, Mater. Sci. Eng. A676, 501-505, 2016.

  60.  Chen, Z.Q., Huang, L., Huang, P., Xu, K.W., Wang, F. & Lu, T.J., “Clarification on shear transformation zone size and its correlation with plasticity for Zr-based bulk metallic glass in different structural states”,Mater. Sci. Eng. A677, 349-355, 2016.

  61.  Chen, Z.Q., Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “β relaxation related bright bands in thin film metallic glasses: localized percolation of flow units captured via transmission electron microscope”, Appl. Phys. Lett. 109(26), 261903, 2016.

  62.  Zhou, Q., Huang, P., Liu, M.B., Wang, F., Xu, K.W. & Lu, T.J., “Grain and interface boundaries governed strengthening mechanisms in metallic multilayers”, J. Alloys Compounds 698, 906-912, 2017.

  63.  Chen, Z.Q., Huang, L., Huang, P., Xu, K.W., Wang, F. & Lu, T.J., “The effects of thin coatings on the mechanical properties and resistance to annealing-induced embrittlement of bulk metallic glass”, Mater. Sci. Eng. A692, 67-74, 2017.

  64.  Gu, C., Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “Size-dependent hardness and tensile plasticity of Ta-Zr61Cu17.5Ni10Al17.5Si4 nanolaminates”,J. Alloys Compounds 707, 321-326, 2017.

  65.  Liu, M., Chen, X.Q., Li, X.G. & Lu, T.J., “Corrosion behavior of low-Cr steel rebars in alkaline solutions with different pH in the presence of chlorides”,Journal of Electroanalytical Chemistry 803, 40-50, 2017.

  66.  Xue, F., Huang, P., Liu, M.B., Xu, K.W., Wang F. & Lu, T.J., “Unusual strain rate sensitivity of nanoscale amorphous CuZr/crystalline Cu multilayers”, Materials Science and Engineering: A, 2017, 684: 84-89.

  67.  Li, Y., Zhou, Q., Huang, P., Xu, K.W., Wang, F. & Lu, T.J., “On the role of weak interface in crack blunting process in nanoscale layered composites”, Appl. Surface Sci. 433, 957-962, 2018.

  68.  Zhou, J., Huang, P., Xu, K.W., Wang, F. & Lu, T.J., “Unusual annealing effects on hardness and strain rate sensitivity of nanocrystalline Nb”, ThinSolid Films 645, 146-153, 2018.

  69.  Zhao, J., Huang, P., Xu, K.W., Wang, F. & Lu, T.J., “Indentation size and loading strain rate dependent creep deformation of nanocrystalline Mo”,Thin Solid Films 653, 353-370, 2018.

  70.  Ma, C.F., Huang, P., Xu, K.W., Wang, F. & Lu, T.J., “Free volume gradient effect on shear banding behavior in CuZr/CuZr multilayers”,Thin Solid Films 66, 48-53, 2018.

  71.  Gu, C., Wang, F., Huang, P., Xu, K.W. & Lu, T.J., “Intrinsic size effect of CuTa/Cu nanolaminates with unequal modulation ratios”, Scripta Mater., 2017,DOI: 10.1016/j.scriptamat.2016.11.026.

  72. 刘明,程学群,李晓刚,卢天健,“基于可靠度的耐蚀钢筋腐蚀起始寿命预测”,《建筑材料学报》,2018,已录用。

  73. 刘明,程学群,李晓刚,卢天健,“低合金钢筋在水泥萃取液中钝化膜的耐蚀机理研究”,《中国腐蚀与防护学报》,38(06):558-564,2018

  74. 刘明,程学群,李晓刚,卢天健,“基于可靠度的耐蚀低合金钢筋腐蚀起始寿命预测”,腐蚀与防护》,40(04):281-286,2019

  75.  Huang, L., Chen, Z.Q., Liu, W.B., Huang, P., Meng, X,K,  Xu, K.W., Wang, F. & Lu, T.J., “Enhanced irradiation resistance of amorphous alloys by introducing amorphous/amorphous interfaces”, Intermetallics, 107, 39–46, 2019.

  76.  Cui, Y., Shibutani, Y., Huang, P., Wang F., Xu, K.W. & Lu, T.J., “Interface-related shear banding deformation of amorphous/crystalline CuZr/Cu nanolaminates by molecular dynamics simulations”,Mater. Trans. 59, 230-236, 2018.

  77.  Huang, L., Chen, Z.Q., Liu, W.B., Huang, P., Meng, X.K., Xu, K.W., Wang, F. & Lu, T.J., “Enhanced irradiation resistance of amorphous alloys by introducing amorphous/amorphous interfaces”, Intermetallics. 107, 39–46, 2019.

  78.  Wang, X., Zhao, Z.-Y., Li, L., Zhang, Z.-J., Zhang, Q.-C., Han, B. & Lu, T.J., “Free vibration behavior of Ti-6Al-4V sandwich beams with corrugated channel cores: Experiments and simulations,” vol. 135, pp. 329-340, 2019.

  79.  Li, L., Zhao, Z., Zhang, R., Han, B., Zhang, Q. & Lu, T.J., “Dual-level stress plateaus in honeycombs subjected to impact loading: perspectives from bucklewaves, buckling and cell-wall progressive folding”, Acta Mechanica Sinica, 35(1), 70-77, 2019.

  80.  Li, L., Zhang, Q.-C., Zhang, R., Wang, X., Zhao, Z.-Y., He, S.-Y., Han, B. & Lu, T.J., “A laboratory experimental technique for simulating combined blast and impact loading”, International Journal of Impact Engineering. 134, 103382, 2019.

  81.  Deng, J., Hong, Z., Yin, Q. & Lu, T.J., “A physically-based failure analysis framework for fiber-reinforced composite laminates under multiaxial loading”, Composite Structures. 241, 112125, 2020.

  82.  Wang, M., Liu, S., Xu, Z., Qu, K., Li, M., Chen, X., Xue, Q., Genin, G.M., Lu, T.J.& Xu, F., “Characterizing poroelasticity of biological tissues by spherical indentation: An improved theory for large relaxation”, Journal of the Mechanics and Physics of Solids. 138, 103920, 2020.

  83.  Yang, M., Han, B., Su, P., Li, F., Zhao, Z., Zhang, Q., Zhang, Q., Hong, Z. & Lu, T.J., “Oblique crushing of truncated conical sandwich shell with corrugated core”, Mechanics of Advanced Materials and Structures. 0, 1–14, 2020.



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