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  1. Lu, T.J., Gu, X.R. & Ji, X., 'Effect of resin properties on strength of filamentary structures', J. Strain Analysis24, 107-113, 1989.

  2. 薛昌明,卢天健,非平衡态/不可逆过程的热力学理论(I)”力学进展, 1989年02期,16-29

  3. 薛昌明,卢天健,非平衡态/不可逆过程的热力学理论(II)”力学进展, 1989年03期,18-33

  4. Lu, T.J. & Chow, C.L., 'Normative representation of stress and strain applied to fibre reinforced composites', J. Reinf. Plast. Comp.10, 594-625, 1991.

  5. 卢天健,顾星若,稽醒,'树脂基体性能对纤维缠绕复合材料结构强度影响的研究',固体力学学报12, 102-113, 1991.

  6.  Chen, C., Lu, T.J. & Fleck, N.A., '‘Effect of imperfections on the yielding of two-dimensional foams’, J. Mech. Phys. Solids47, 2235-2272, 1999.

  7.  Chen, C. & Lu, T.J., 'A phenomenological framework of constitutive modelling for incompressible and compressible elasto-plastic solids', Int. J. Solids Struc.37, 7769-7786, 2000.

  8. Lu, T.J. & Zhu, G., "The elastic constants of corrugated board panels", J. Comp. Mater.35, 1867-1886, 2001.

  9. Lu, T.J., Chen, C. & Zhu, G., "Compressive behavior of corrugated board panels", J. Comp. Mater.35, 2098-2126, 2001.

  10. Lu, T.J. & Ong, J.M.,"Characterization of close-celled cellular aluminum alloys", J. Mater. Sci.,36, 2773-2786, 2001.

  11.  Chen, C., Lu, T.J. & Fleck, N.A., "Effect of inclusions and holes on stiffness and strength of cellular solids', Int. J. Mech. Sci.43, 487-504, 2001.

  12.  Chen, Y.-H. & Lu, T.J., "Recent developments in invariant integrals", Appl. Mech. Review56(5), 515-552, 2003.

  13.  Tian, Y.S., Wang, J. & Lu, T.J., "Racking strength and stiffness of cold-formed steel wall frames", J. Constructional Steel Research60, 1069-1093, 2004.

  14.  Tian, Y.S., Wang, J., Lu, T.J. & Barlow, C.Y., "An experimental study on the axial behaviour of cold formed steel wall studs and panels," Thin-Walled Structures42, 557-573, 2004.

  15.  Zhao, H.F., Hu, G.K. & Lu, T.J., “Correlation between the elastic moduli and conductivity of planar porous materials,” Int. J. Frac.126, L11-18, 2004.

  16.  Wang, J., Tian, Y.S. & Lu, T.J., “The role of frame members and sheathing in partition wall panels subjected to compression”, Thin-Walled Structures43, 983-1002, 2005.

  17.  Hu, G.K., Liu, X.N. & Lu, T.J., “A variational method for nonlinear micropolar composites”, Mech. Mater.37, 407-425, 2005.

  18.  Zen, T., Fang, D.N. & Lu, T.J., “Dynamic crashing and impact energy absorption of 3D braded composite tubes”, Mater. Lett.59, 1491-1496, 2005.

  19.  Zhao, H.F., Hu, G.K. & Lu, T.J., “Cross-property relations for two-phase planar composites”, Computational Materials Science35, 408–415, 2006.

  20.  Tian, Y.S., Lu, T.J. & Wang, J., "Axial load capacity of cold-formed steel wall stud with sheathing," Thin-Walled Structures, 45(5), 537-551, 2007.

  21.  Kepets, M., Lu, T.J. & Dowling, A.P., “Mechanical characterization of the role of defects in sintered FeCrAlY foams”, Acta Mechanica Sinica, 23, 383-398, 2007.

  22.  Kepets, M., Lu, T.J. & Dowling, A.P., “Modeling of the role of defects in sintered FeCrAlY foams”, Acta Mechanica Sinica, 23(5), 511-529, 2007.

  23. 赵桂平,卢天健,“多孔金属夹层板在冲击载荷作用下的动态响应”,《力学学报》200840(2):194-2062007-2016年《力学学报》影响力提升优秀贡献奖;下载量排在2008年力学类论文的首位

  24. 田晓耕,卢天健,郑占君,“属性与温度相关材料的广义热弹性问题”,《力学学报》200941(2):185-191

  25. 尚艳军,卢天健,陈常青,“球形闭孔泡沫金属材料力学行为研究”,《固体力学学报》,200930(4):1-8

  26.  Zhao KJ, Chen C, Shen YP, Lu TJ. Molecular dynamics study of nano-void growth in face-centered cubic single crystal copper. Computational Materials Science 46, 749-754, 2009.

  27. 黄桥平,赵桂平,卢天健,“考虑应变率效应的复合材料层合板冲击动态响应”,《西安交通大学学报》,43(1): 72-76, 2009

  28. 李斌潮,张钱诚,卢天健,“基于实验模态分析的点阵夹层结构动态性能预测”,《固体力学学报》,29(4): 373-378, 2009

  29. 范志庚,陈常青,卢天健,“低密度开孔泡沫材料蠕变特性分析”,《固体力学学报》,30(6): 558-564, 2009

  30. 田培培,赵桂平,卢天健,“具有填充材料的金属格栅夹层板在高速冲击下的动态响应”,《应用力学学报》,26(4):788-792,2009

  31. 倪长也,金峰,卢天健,“超轻多孔材料三明治板抗侵彻性能分析”,《兵工学报》,30(s2): 94-97, 2009.

  32. 李斌潮,赵桂平,卢天健,“冲击条件下多孔金属材料的能量守恒模型”,《兵工学报》,30(s2): 38-41, 2009.

  33. 张健,赵桂平,卢天健,“闭孔泡沫铝应变率效应的实验和有限元分析”,《西安交通大学学报》,44(5): 97-101, 2010

  34. 倪长也,金 峰,卢天健,李裕春,“3种点阵金属三明治板的抗侵彻性能模拟分析”,《力学学报》42(6): 1125-1137, 2010

  35. 李斌潮,赵桂平,卢天健,“高孔隙率闭孔泡沫铝的低应变率压缩行为”,《力学学报》43(1): 122-135, 2011

  36. 李斌潮,赵桂平,卢天健,“闭孔泡沫铝低速冲击防护的临界条件与优化设计”,《固体力学学报》,32(4): 325-338, 12011

  37. 寇玉亮,陈常青,卢天健,“泡沫铝率相关本构模型及其在三明治夹芯板冲击吸能特性的应用研究”,《固体力学学报》 32(3),217-227, 2011

  38.  Zhang, J., Zhao, G.P. & Lu, T.J., "Dynamic responses of sandwich beams with gradient-density aluminum foam cores,"(invited paper for special edition), Int. J. Protective Struc. 2(4), 439-451, 2011.

  39.  Li, B.C., Zhao, G.P. & Lu, T.J., “Low strain rate compressive behavior of high porosity close-celled aluminum foams”, Science in China: E – Tech Sci55(2), 451-463, 2012.

  40.  Yu, B., Xin, F.X. & Lu, T.J., “Dynamical response of sandwich plates with strength graded cores”, Adv. Mater Res. 410, 317-320, 2012.

  41.  Han, B., Xin, F.X., Jin, F. & Lu, T.J., “Numerical simulations for hail impact on lightweight sandwich structures”, Adv. Mater Res. 410, 321-324, 2012.

  42.  Li, B.C., Zhao, G.P. & Lu, T.J., “Large mass protection with close-celled metallic foams under low velocity impact: spring-damper-foam collision model”,Inter. J. Nonlinear Sci. Numerical Simulation13(1), 39-47, 2012.

  43. 隋立军,田晓耕,卢天健,“机床结构结合面静态特性研究与内聚力模拟”,《固体力学学报》,33(1): 109-118, 2012

  44.  Li, B.C., Zhao, G.P. & Lu, T.J., "A double degree freedom mass-spring-damper-foam collision model for low velocity impact,"ASME J. Appl. Mech. 79(5), 051021, 2012.

  45.  Liu, X.R., Tian, X.G., Lu, T.J., Zhou, D.Q. & Liang, B., "Blast resistance of sandwich-walled hollow cylinders with graded metallic foam cores,"Comp. Struc.94, 2485-2493, 2012.

  46.  Fan, Z.G., Chen, C.Q & Lu, T.J., "Multiaxial creep of low density open-cell foams”, Mater. Sci. Eng. A540, 83-88, 2012.

  47. 许巍,陈力,张钱城,杨金水,魏悦广,卢天健,“粘结界面力学行为及其表征”,《中国科学》E辑(技术科学)42(12): 1361-1376,2012(特邀稿件)

  48. 刘新让,田晓耕,卢天健,梁斌,王伊卿,“泡沫铝夹芯圆筒抗爆性能研究,《爆炸与冲击》 31(23):166-173,2012

  49.  Jin, M.Z., Chen, C. & Lu, T.J., ‘The mechanical behavior of porous metal fiber sintered sheets’, J. Mech. Phys. Solids61(1), 161-174, 2013.

  50.  Ni, C.Y., Li, Y.C., Xin, F.X., Jin, F. & Lu, T.J., ‘Ballistic resistance of hybrid-cored sandwich plates: numerical and experimental assessment’, Composites A46, 69-79, 2013.  

  51.  Yu, Y.J., Tian, X.G. & Lu, T.J., "Fractional order generalized electro-magneto-thermo-elasto-dynamics," European J. Mech. A Solids 42, 188-202, 2013.

  52.  Yan, L.L., Yu, B., Han, B., Chen, C.Q., Zhang, Q.C. & Lu, T.J., "Compressive strength and energy absorption of sandwich panels with aluminum foam-filled corrugated cores," Comp. Sci. Tech. 86, 142-148, 2013.

  53.  Yu, Y.J., Tian, X.G. & Lu, T.J., "On fractional order generalized thermoelasticity with micromodeling," Acta Mechanica 224(12), 2911-2927, 2013.

  54. 张健,赵桂平,卢天健,“泡沫金属在冲击载荷下的能量吸收特性”,《西安交通大学学报》 47(11): 105-112, 2013

  55. 何柏灵,赵桂平,卢天健,“复合材料面层-泡沫金属夹芯板的振动及吸能特性分析,《兵工学报》 35(2): 228-234,2014

  56. 韩宾,文灿,于渤,倪长也,秦科科,张钱城,卢天健,慈军,耿丽,“泡沫填充波纹夹芯梁的面内压缩破坏模式分析,《西安交通大学学报》48(11): 37-43, 2014

  57. 夏鸿雁,侯润,张钱诚,卢天健,“高性能混凝土填充金属三明治夹层波纹板的抗侵彻试验研究”,《硅酸盐学报42(8): 1025-1031, 2014

  58. 张健,赵桂平,卢天健,“泡沫金属在冲击载荷下的动态压缩行为,《爆炸与冲击》34(3): 278-284, 2014

  59. 张钱诚,郝方楠,李裕春,于渤,刘剑锋,金峰,卢天健,“爆炸冲击载荷作用下车辆和人员的损伤及其防护”,《力学与实践》36(5): 527-5392014(封面文章)

  60.  Yan, L.L., Han, B., Chen, C.Q., Zhang, Q.C. & Lu, T.J., "Three-point bending of sandwich beams with aluminum foam-filled corrugated cores," Mater. Design. 60, 510-519, 2014.

  61.  Ni, C.Y., Jin, F. & Lu, T.J., "Penetration resistance of hybrid-cored sandwich plates under oblique ballistic impact," Theor. Appl. Mech. Lett. 4(2), 021001, 2014.

  62.  Ni, C.Y., Liu, G.W., Jin, F., Xin, F.X. & Lu, T.J., “Ballisticperformance of titanium alloy encapsulated ceramic composite plates”, Mater. Res. Innovations 18(s2), s2-215-s2-219, 2014.

  63.  Liu, X.R., Tian, X.G., Lu, T.J. & Liang, B., "Sandwich plates with functionally graded metallic foam cores subjected to air blast loading," Int. J. Mech. Eng. 84, 61-72, 2014 (invited contribution for Steve Reid’s 70th birthday special edition).

  64.  Han, B., Yan, L.L., Yu, B., Zhang, Q.C., Chen, C.Q. & Lu, T.J., "Collapse mechanisms of metal sandwich plates with aluminum foam-filled corrugated cores," Journal of Mechanics of Materials and Structures(JMMS) 9(4), 397-425, 2014.

  65.  Han, B., Xu, Y., Yu, B., Chen, C.Q., Zhang, Q.C. & Lu, T.J., "Foam filling radically enhances transverse shear response of corrugated sandwich plates," Mater. Design 77, 132-141, 2015.

  66.  Zhang, J., Zhao, G.P., Lu, T.J. & He, S.Y., "Strain rate behavior of closed-cell Al-Si-Ti foams: experiment and numerical modeling," Mech. Adv. Mater. Struc. 22(7), 556-563, 2015.

  67.  Yu, B., Yan, L.L., Han, B., Zhang, Q.C., Chen, C.Q., Jin, F. & Lu, T.J., "Dynamic crushing of all-metallic corrugated panels filled with close-celled aluminum foams," ASME J. Appl. Mech. 82(1), 011006, 2015.

  68.  Han, B., Qin, K.K., Yu, B., Zhang, Q.C., Chen, C.Q. & Lu, T.J., "Design optimization of foam-reinforced corrguated sandwich beams," Comp. Struc. 130, 51-62, 2015.

  69.  Ni, C.Y., Hou, R., Xia, H.Y, Zhang, Q.C., Wang, W.B., Cheng, Z.H., & Lu, T.J., ‘Perforation resistance of corrugated metallic sandwich plates filled with reactive powder concrete: Experiment and simulation’, Comp. Struc. 127, 426-435, 2015.  

  70. 于渤,韩宾,倪长也,刘剑峰,张钱城,卢天健,慈军,耿丽,“空心及PMI泡沫填充铝波纹夹芯梁冲击性能实验研究,《西安交通大学学报》49(1): 86-91, 2015

  71. 张健,赵桂平,卢天健,“闭孔泡沫铝的多轴唯象受压本构参数,《力学学报》47(4),651-663, 2015

  72.  Yu, B., Han, B., Su, P.B., Ni, C.Y., Zhang, Q.C. & Lu, T.J., "Graded square honeycomb as sandwich core for enhanced mechanical performance," Mater. Design 89, 642-652, 2016.

  73.  Han, B., Qin, K.K., Yu, B., Wang, B., Zhang, Q.C. & Lu, T.J., "Honeycomb-corrugation hybrid as a novel sandwich core for significantly enhanced compressive performance," Mater. Design 93, 271-282, 2016.

  74.  Han, B., Wang, W.B., Zhang, Z.J., Zhang, Q.C., Jin, F. & Lu, T.J., “Performance enhancement of sandwich panels with honeycomb-corrugation hybrid core”, Theor. Appl. Mech. Lett. 6(1), 54-59, 2016.

  75.  Han, B., Li, F.H., Ni, C.Y., Chen, C.Q. & Lu, T.J., "Stability and post-buckling of a standing sandwich beam under terminal force and self-weight," Archive Appl. Mech. 86, 1063-1082,2016.

  76. 张健,赵桂平,卢天健,“梯度泡沫金属的冲击吸能特性”,《工程力学》33(8),211-220, 2016

  77.  Han, B., Zhang, Q.C. & Lu, T.J., "Recent advances in hybrid lattice-cored sandwiches for enhanced multifunctional performance," Extreme Mech. Lett. 10, 58-69, 2017.

  78.  Han, B., Qin, K.K., Zhang, Q.C., Zhang, Q., Lu, T.J. & Lu, B.H., "Free vibration and buckling of foam-filled corrugated composite sandwichplates under thermal loading," Comp. Struc. 172, 173-189, 2017.

  79.  Ni, C.Y., Hou, R., Han, B., Jin, F. & Lu, T.J., ‘Normal and oblique projectile impact of double-layered pyramidal lattice truss structures filled with ceramic insertions’,J. Thermoplastic Composite Materials 30(8), 1136-1156, 2017.  

  80. 赵雪,闫雷雷,卢天健,常青,“多层金属多孔复合结构面外压缩吸能特性实验,《空军工程大学学报》(自然科学版)18(4),28-33, 2017

  81.  Zhao, Z.Y., Han, B., Wang, X., Zhang, Q.C. & Lu, T.J., "Out-of-plane compression of Ti-6Al-4V sandwich panels with corrugated channel cores,"Mater. Design 137, 463-472, 2018.

  82.  Yan, L.L., Zhao, X., Zhao, J.B., Li, B.C., Zhang, Q.C. & Lu, T.J., “Coupling Enhancement Mechanism of Aluminum Foam-Filled Metallic Corrugated Sandwich Panels”, Rare Metal Mater. Eng. 47, 503-508, 2018.

  83.  Han, B., Yu, R.P., Zhang, Q.C., Gao, H, Zhang, Q. & Lu, T.J., "Creep of closed-cell metallic foams: effects of imperfections and predictive modeling,"Mater. Design 156, 229-241, 2018.

  84.  Yan, L.L., Zhao, Z.Y., Han, B., Lu, T.J. & Lu, B.H., “Tube enhanced foam: A novel way for aluminum foam enhancement”, Mater. Lett. 227, 70-73, 2018.

  85.  Chen, X., Li, M.X., Yang, M., Liu, S.B., Genin, G., Xu, F. & Lu, T.J., "The elastic fields of a compressible liquid inclusion," Extreme Mech. Lett. 22, 122-130, 2018.

  86.  Su, P.B., Han, B., Zhao, Z.N., Zhang, Q.C. & Lu, T.J., "Three-point bending of honeycomb sandwich beams with facesheet perforations," Acta Mech. Sinica 34(4), 667-675, 2018.

  87.  Wang, X., Han, B., Yu, R.P., Zhao, Z.Y., Zhang, Q.C. & Lu, T.J., "Magnetic-responsive Fe3O4nanoparticle-impregnated cellulose paper actuators," Extreme Mech. Lett. 25, 53-59, 2018.

  88.  Li, F.H., Han, B., Zhang, Q.C., Jin, F. & Lu, T.J., "Buckling of a standing corrugated sandwich plate subjected to body force and terminal load," Thin Walled Struc., 2018, 127: 688-699.

  89.  Su, P.B., Yang, M., Han, B., Wei, Z.H., Zhang, Q.C., K.K., Qin & Lu, T.J., "Axial compressive collapse of ultralight corrugated sandwich cylindrical shells," Mater. Design, 2018, 160: 325-337.

  90.  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," Thin-Walled Struc. 35, 329-340, 2019.

  91.  Yang, M., Su, P.B., Han, B., Wei, Z.H., Zhang, Q.C. & Lu, T.J., " Axial crushing of ultralight all-metallic truncated conical sandwich shells with corrugated cores," Thin-Walled Struc. 140, 318-330, 2019.

  92.  Li, L., Han, B., He, S. Y., Zhao, Z. Y., Zhang, R., Zhang, Q. C. & Lu, T.J., “Shock loading simulation using density-graded metallic foam projectiles”, Materials & Design. 164, 107546, 2019.

  93.  Chen, X., He, W., Liu, S., Li, M., Genin, G.M., Xu, F. & Lu,T.J., “Volumetric response of an ellipsoidal liquid inclusion: implications for cell mechanobiology, Acta Mech”,Sin. 35, 338–342, 2019.

  94.  Chen, X., Li, M., Liu, S., Liu, F., Genin, G.M., Xu, F. & Lu,T.J., “Translation of a coated rigid spherical inclusion in an elastic matrix: exact solution, and implications for mechanobiology”, Journal of Applied Mechanics. 1–28, 2019.

  95.  Zhang, R., Han, B., Li, L., Zhao, Z.-N., Zhang, Q., Zhang, Q.-C., Ni, C.-Y. & Lu, T.J., “Influence of prestress on ballistic performance of bi-layer ceramic composite armors: Experiments and simulations”, Composite Structures. 227, 111258,2019.

  96.  Li, L., Han,B., Zhang, Q.-C., Zhao, Z.-Y. & Lu,T.J., “Dynamic response of clamped sandwich beams: analytical modeling”, Theoretical and Applied Mechanics Letters. 9, 391–396, 2019.

  97.  Zhang, R., Han, B. & Lu, T.J., “Confinement effects on compressive and ballistic performance of ceramics: a review”, International Materials Reviews. 0, 1–26, 2020.

  98.  Zhang, R., Qiang, L.-S., Han, B., Zhao, Z.-Y., Zhang, Q.-C., Ni, C.-Y. & Lu, T.J., “Ballistic performance of UHMWPE laminated plates and UHMWPE encapsulated aluminum structures: Numerical simulation”, Composite Structures. 252, 112686, 2020.

  99.  Yang, M., Han, B., Su, P.-B., Wei, Z.-H., Zhang, Q., Zhang, Q.-C. & Lu, T.J., “Free vibration and axial compression of all-metallic cylindrical and truncated conical sandwich shells with corrugated cores”, Jnl of Sandwich Structures & Materials. 1099636220909792, 2020.

  100.  Wu, Y., Li, M., Yin, J., Liu, S. & Lu, T.J., “Hydrostatic pressure and interfacial tension induce mode instability in wave propagation along a liquid-filled microtubule”, Physics of Fluids. 32, 031901, 2020.

  101.  Zhu, H., Yang, X., Genin, G.M., Lu, T.J., Xu, F. & Lin, M., “Modeling the mechanics, kinetics, and network evolution of photopolymerized hydrogels”, Journal of the Mechanics and Physics of Solids. 142, 104041, 2020.

  102.  Chen, X., Li, M., Liu, S., He, W., Ti, F., Dong, Y., Genin, G.M., Xu, F. & Lu, T.J., “Mechanics tuning of liquid inclusions via bio-coating”, Extreme Mechanics Letters. 101049, 2020.

  103.  Liu, H., Li, M., Liu, S., Jia, P., Guo, X., Feng, S., Lu, T.J., Yang, H., Li, F. & Xu, F., “Spatially modulated stiffness on hydrogels for soft and stretchable integrated electronics”, Materials Horizons. 7, 203–213, 2020.

  104.  Fei, T., Chen, X., Yang, H., Liu, S. & Lu, T.J., “A theory of mechanobiological sensation: strain amplification/attenuation of coated liquid inclusion with surface tension”, Acta Mechanica Sinica. 1-11, 2020.

  105.  Su, P.B., Han, B., Yang, M., Zhao, Z.N., Li, F.H., Zhang, Q., Zhang, Q.C. & Lu, T.J., “Energy Absorption of All-Metallic Corrugated Sandwich Cylindrical Shells Subjected to Axial Compression”, J. Appl. Mech. 87, 2020.

  106.  Yu, R.-P., Wang, X., Zhang, Q.-C., Li, L., He, S.-Y., Han, B., Ni, C.-Y., Zhao, Z.-Y. & Lu, T.J., “Effects of sand filling on the dynamic response of corrugated core sandwich beams under foam projectile impact”, Composites Part B: Engineering. 197, 108135, 2020.

  107.  Yan, L., Yu, B., Han, B., Zhang, Q., Lu, T.J.&Lu, B., “Effects of aluminum foam filling on the low-velocity impact response of sandwich panels with corrugated cores”, Jnl of Sandwich Structures & Materials. 22, 929–947, 2020.

  108.  Wang, X., Yu, R.-P., Zhang, Q.-C., Li, L., Li, X., Zhao, Z.-Y., Han, B., He, S.-Y. & Lu, T.J., “Dynamic response of clamped sandwich beams with fluid-fillied corrugated cores”, International Journal of Impact Engineering. 139,103533, 2020.

  109.  Wang, X., Li, X., Yu, R.-P., Ren, J.-W., Zhang, Q.-C., Zhao, Z.-Y., Ni, C.-Y., Han, B. & Lu, T.J., “Enhanced vibration and damping characteristics of novel corrugated sandwich panels with polyurea-metal laminate face sheets”, Composite Structures. 251, 112591, 2020.

  110.  Zhao, Z., Ren, J., Du, S., Wang, X., Wei, Z., Zhang, Q., Zhou, Y., Yang, Z. & Lu, T.J., “Bending Response of 3D-Printed Titanium Alloy Sandwich Panels with Corrugated Channel Cores”, Materials. 14, 556, 2021.

  111.  Chen, X., Ti, F., Li, M., Liu, S. & Lu, T.J., “Theory of fluid saturated porous media with surface effects”, Journal of the Mechanics and Physics of Solids. 151, 104392, 2021.




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