1. Lu, T.J. & Hutchinson, J.W., 'Effect of matrix cracking and interface sliding on the thermal expansion of fibre-reinforced composites', Composites 26, 403-414, 1995.

2.  Hutchinson, J.W. & Lu, T.J., 'Delamination due to high through-thickness temperature gradients’, Trans. ASME J. Engng. Mater. Technol. (75th Anniversary Special Issue) 117, 386-390, 1995.

3. Lu, T.J. & Hutchinson, J.W., 'Thermal conductivity and expansion of cross-ply ceramic composites with matrix cracks', J. Mech. Phys. Solids, 43, 1175-1198, 1995.

4. Lu, T.J. & Hutchinson, J.W., 'Effect of matrix cracking on the thermal conductivity of fibre-reinforced ceramic matrix composites', Phil. Trans. Roy. Soc. Lond., 351, 595-610, 1995.

5. Lu, T.J., Evans, A.G. & Hutchinson, J.W., ''Stress and strain evolution in cast refractory blocks during cooling,' J. Amer. Ceram. Soc.81, 917-925, 1998.

6.  Evans, A.G., Hutchinson, J.W., Hutchinson, R.G., Sugimura, Y. & Lu, T.J., '‘A technical cost framework for high temperature manufacturing of small components and devices’, J. Amer. Ceram. Soc.81, 815-836 (Feature Article), 1998.

7. Lu, T.J. & Fleck, N.A., 'Resistance of brittle materials to thermal shock', Acta Mater.46, 4755-4768, 1998.

8. Lu, T.J., Stone, H.A. & Ashby, M.F., 'Heat transfer in open-cell metal foams,' Acta Mater.46, 3619-3635, 1998.

9. Lu, T.J., Evans, A.G. & Hutchinson, J.W., ''The effects of material properties on heat dissipation in high power electronics,' Trans. ASME J. Electronic Packaging 120, 280-289, 1998.

10. Lu, T.J., ''Heat transfer efficiency of metal honeycombs,' Int. J. Heat Mass Transfer42, 2031-2040, 1999.

11. Lu, T.J. & Chen, C., "Thermal transport and fire retardance properties of cellular aluminium alloys', Acta Mater.47, 1469-1485, 1999.

12.  He, P., Lu, T.J. & Clegg, W.J., "The cracking of zirconia refractory tubes under hot shock", J. Mater. Sci.35, 2443-2449, 2000.

13.  Zhao, L.G., Lu, T.J. & Fleck, N.A., '‘The tunneling and channelling of cracks under cold shock’, J. Mech. Phys. Solids48, 867-898, 2000.

14. Lu, T.J., ''Thermal management of high power electronics with phase change cooling,' Int.J. Heat Mass Transfer43, 2245-2256, 2000.

15.  Gu, S., Lu, T.J., Hass, D.D. & Wadley, H.N.G., "Thermal conductivity of zirconia coatings with zig-zag pore microstructures", Acta Mater.49, 2539-2547, 2001.

16. Lu, T.J., Levi, C., Wadley, H.N.G. & Evans, A.G., "Distributed porosity as a control parameter for oxide thermal barriers", J. Am. Ceram. Soc. 84, 2937-2946, 2001.

17.  Zhao, C.Y. & Lu, T.J., "Analysis of microchannel heat sinks for electronics cooling," Int. J. Heat Mass Transfer45, 4857-4869, 2002.

18.  Jiang, P.X., Li, M., Lu, T.J., Yu, L. & Z.P. Zen, "Experimental research on convection heat transfer in sintered porous plate channels", Int. J. Heat Mass Transfer47,2004, 2085-2096.

19.  Kim, T., Zhao, C.Y., Lu, T.J. & Hodson, H., “Convective heat dissipation with lattice-frame materials”, Mech. Mater.36, 767-780, 2004.

20.  Zhao, C.Y., Lu, T.J., Hodson, H.P. & Jackson, J.D., "The temperature dependence of effective thermal conductivity of open-celled steel alloy foams,” Mater. Sci. Eng.A367, 123-131, 2004.

21.  Kim, T., Hodson, H.P. & Lu, T.J., "Fluid flow and endwall heat-transfer characteristics of an ultralight lattice-frame material", Int. J. Heat and Mass Transfer47, 1129-1140, 2004.

22.  Zhao, C.Y., Lu, T.J. & Hodson, H.P., “Measurements of thermal radiation in ultralight metal foams with open cells”, J. Mechanical Engineering Science, IMechE Proceeding218, 1297-1307, 2004.

23.  Tian, J., Kim, T., Lu, T.J., Hodson, H.P., Queheillalt, D.T. & Wadley, H.N.G., "The effects of topology upon fluid-flow and heat-transfer within cellular copper structures", Int. J. Heat Mass Transfer 47, 3171-3186, 2004.

24.  Zhao, C.Y., Kim, T., Lu, T.J. & Hodson, H.P., “Thermal transport in high porosity cellular metal foams,” AIAA J. Thermofluid Phys.18, 309-317, 2004.

25.  Kim, T., Hodson, H.P. & Lu, T.J., “Pressure loss and heat transfer mechanisms in a lattice-frame structured heat exchanger”, J. Mechanical Engineering Science, IMechE Proceeding 218, 1321-1336, 2004.

26.  Zhao, C.Y., Lu, T.J. & Hodson, H.P., “Thermal radiation in ultralight metal foams with open cells”, Int. J. Heat Mass Transfer47, 2927-2939, 2004.

27.  Kim, T., Hodson, H.P. &Lu, T.J., “Contribution of vortex structures and flow separation to local pressure and heat transfer characteristics in an ultralightweight lattice material”, Int. J. Heat Mass Transfer48, 4243-4264, 2005.

28.  Zhao, C.Y., Lu, T.J. & Hodson, H.P., “Natural convection in metal foams with open cells”, Int. J. Heat and Mass Transfer 48, 2452-2463, 2005.

29. Lu, T.J., Valdevit, L. & Evans, A.G., “Active cooling by metallic sandwich structures with periodic cores”, Prog. Mater. Sci.50, 789-815, 2005.

30.  Fuller, A.J., Kim, T., Hodson, H.P. & Lu, T.J., “Measurement and interpretation of the heat transfer coefficients of metal foams”,Best Paper Award, 8^th UK National Heat Transfer Conference, Oxford, 9-10 September 2003. J. Mechanical Engineering Science, IMechE Proceeding219, 183-191, 2005.

31.  Kim, T., Lu, T.J. & Hodson, H.P., “On the prediction of pressure drop across banks of inclined cylinders”, Int. J. Heat Fluid Flow27, 2006, 311-318.

32.  Wen, T., Tian, J., Lu, T.J., Queheillalt, D.T & Wadley, H.N.G., “Forced convection in metallic honeycomb structures”, Int. J. Heat Mass Transfer49, 2006, 3313-3324.

33.  Choi, I.K., Kim, T., Song, S.J. & Lu, T.J., “Endwall heat transfer and fluid-flow around a short cylinder”, Int. J. Heat Mass Transfer50, 2007, 919-930.

34.  Xu, J.Y., Tian, J., Lu, T.J. & Hodson, H.P., “On the thermal performance of metallic woven textile structures as heat exchanger material”, Int. J. Heat Mass Transfer50, 2007, 1141-1154.

35.  Tian, J., Lu, T.J., Hodson, H.P., Queheillalt, D.T. & Wadley, H.N.G., "Cross flow heat exchange of textile cellular metal core sandwich panels", Int. J. Heat Mass Transfer50, 2007, 2521-2536.

36.  Zhao, C. Y., Tassou, S. A. & Lu, T.J., “Analytical considerations of thermal radiation in cellular metal foams with open cells”, Int. J. Heat Mass Transfer, 51, 2008, 929-940.

37.  Kim, T. & Lu, T.J., “Pressure drop through anisotropic porous medium-like cylinder bundles in fully turbulent flow regime”, ASME J. Fluids Engineering, 130, paper 104501, 2008.

38.  Sui, D., Kim, T., Xu, M.L. & Lu, T.J.,“Flow and heat transfer characteristics of impinging axial fan flows on a uniformly heated flat plate,” Int. J. Transport Phenomena10, 2008, 353-363.

39.  Xu, F., Wen, T.& Lu, T.J., “Two-dimensional cellular metals as multifunctional structures: topology optimization”, Heat and Mass Transfer45, 2009, 485-501

40.  Sui, D., Kim, T., M.L. Xu & Lu, T.J., “Novel hub fins of an axial flow fan for impinging heat transfer enhancement from a flat plate”, ASME J. Heat Transfer131(7), 2009, 074502 (Top 10 downloaded papers in May 2009).   

41.  Sui, D., Kim, T., Wang, S.S., Mao, J.R. & Lu, T.J., “Exit flow behavior of axial fan flows with/without impingement”, ASME J Fluids Engineering131(6), paper 061103, 2009.  

42. Vipat, O., Feng, S.S., Kim, T., Pradeep, A.M. & Lu, T.J., “Asymmetric entrainment effect on the local surface temperature of a flat plate heated by an obliquely impinging 2-dimensional jet”, Int. J. Heat Mass Transfer, 52, 2009, 5250-5257.

43. 屈治国，徐治国，陶文铨，卢天健，“通孔金属泡沫中的空气自然对流传热实验研究”，《西安交通大学学报》，2009，43(1): 1-4.

44. 徐治国，屈治国，李定国，赵长颖，陶文铨，卢天健，王美琴，“通孔金属泡沫的池沸腾实验研究”，《工程热物理学报》，2009，30(10): 1713-1716。

45. O. Vipat, X.G. Tian, T. Kim, T.J. Lu & A.M. Pradeep, “Thermal stress induced by an impinging cooling/heating jet on a flat plate with inclination”, AIAA J. Thermophysics and Heat Transfer 24(1), 218-222,2010.

46.  Xu, J.Y., Lu, T.J., Hodson, H.P. & Fleck, N.A., “Analysis of thermal dispersion in an array of parallel plates with fully-developed laminar flow”, Int J. Heat Fluid Flow31(1), 57-69, 2010.

47.  Zhang, B., Kim, T. & Lu, T.J., “Solidification in a continuous medium with periodically distributed two-dimensional circular pores,” AIAA J. Thermophysics and Heat Transfer 24(2), 348-354, 2010.

48.  Yang, H.Q., Kim, T., Lu, T.J. & Ichimiya, K., “Flow structure, wall pressure and heat transfer characteristics of impinging annular jet with/without steady swirling”, Int. J. Heat Mass Transfer53, 4092-4100, 2010.

49.  Feng, S.S, Kim, T. & Lu, T.J., “A semi-empirical heat transfer model for forced convection in pin-fin heat sinks subjected to non-uniform heating”, ASME J. Heat Transfer132(12), 121702, 2010. (Top 10 downloaded, 2010)

50. 邝九杰，隋 丹，金东范，卢天健，徐明龙，“轴流风扇冲击射流下泡沫铝热沉的换热特性”，《西安交通大学学报》，2010，44(3): 6-10.

51. 高怀斌，屈治国，杜艳平，赵长颖，陶文铨，卢天健,“辐射模型和弥散效应对多孔介质内燃烧影响的数值模拟”，《工程热物理学报》，31(2): 321-323, 2010。（GAO Huai-Bin, QU Zhi-Guo, DU Yan-Ping, ZHAO Chang-Ying, TAO Wen-Quan, LU Tian-Jian, “Numerical study of radiation model and diffusion effects on combustion in porous media”, Eng. Thermophys., 31(2): 321-323, 2010.）

52.  Feng, S.S, Kim, T. & Lu, T.J., “Transient thermal response of pin-fin sandwich panels to hot jet impingement”, ASME J. Heat Transfer133(6), 061901, 2011.

53.  Feng, S.S., Kim, T. & Lu, T.J., “Thermal resistance analysis of pin-fin heat sinks under non-uniform impingement heating”, AIAA J. Thermophysics and Heat Transfer25(1), 119-129, 2011.

54.  Yang, H.Q., Kim, T. & Lu, T.J., “Characteristics of annular impinging jets with/without swirling flow by short guide vanes”, Science in China E: Technical Sciences54(3): 749-757, 2011.  

55.  Yang, X.H., Kim, T. & Lu, T.J., “Temperature effects on the effective thermal conductivity of phase change materials with two distinctive phases”,Int. Comm. Heat Mass Transfer 38(10), 2011, 1344-1348.

56. Joo, J-H., Kang, K-J., Kim, T. & Lu, T.J., “Forced convective heat transfer in all metallic wire-woven bulk kagome sandwich panels”, Int. J. Heat Mass Transfer 54(25-26), 5658-5662, 2011.

57.  Xu, H.J., Qu, Z.G., Lu, T.J., He, Y.L. & Tao, W.Q., “Thermal modeling of forced convection in a parrael-plate channel partially filled with metallic foams”, ASME J. Heat Transfer133(9), 092603, 2011.  

58. 杨会群，金东范，卢天健，“环形旋转冲击射流热流特性的实验研究”， 《中国科学》E辑（技术科学），41(5): 648-655, 2011。

59. 汪天送；屈治国； 陶文铨； 卢天健，“烧结开孔金属泡沫壁的辐射和自然对流耦合换热试验研究”，《机械工程学报》，47(4): 131-135，2011.

60. 王杰利； 屈治国； 李文强； 陶文铨； 卢天健，“封装有相变材料的金属泡沫复合散热器实验研究”， 《工程热物理学报》，32(2): 295-298, 2011.

61. 徐会金;屈治国;杜艳平;何雅玲;陶文铨;卢天健，“内壁填充环状金属泡沫的管内流动凝结换热”， 《化工学报》，62（5）: 1246-1251，2011   。

62.  Kuang, J.J, Kim, T., Xu, M.L. & Lu, T.J., “Ultralightweight compact heat sinks with open-celled metal foams under axial fan flow impingement”, Heat Transfer Engineering33(7), 642-650, 2012.

63.  Feng, S.S, Li, M.Z., Joo, J.-H., Kang, K.-J., Kim, T. & Lu, T.J., “Thermo-mechanical properties of brazed wire-woven bulk Kagome cellular metals for multifunctional applications”, AIAA J. Thermophysics and Heat Transfer26(1), 66-74, 2012.

64.  Qu, Z.G., Wang, T.S., Tao, W.Q. & Lu, T.J., “A theoretical octet-truss lattice unit cell model for effective thermal conductivity of consolidated porous materials saturated with fluid”, Heat Mass Transfer48(8), 1385-1395, 2012.

65.  Qu, Z.G., Wang, T.S., Tao, W.Q. & Lu, T.J., “Experimental study of air natural convection on metallic foam-sintered plate”, Int J. Heat Fluid Flow 38, 126-132, 2012.

66.  Yang, X.H., Lu, T.J. & Kim, T., “Influence of non-conducting pore inclusions on phase change behavior of porous media with constant heat flux boundary”, Int. J. Thermal Sci. 64, 137-144, 2013.

67.  Feng, S.S., Kim, T. & Lu, T.J., “Numerical investigation of forced convection in pin/plate-fin heat sinks subjected to impinging jet heating with porous medium approach”, Int J Numerical Methods for Heat and Fluid Flow 23(1), 88-107, 2013.

68.  Yang, X.H., Lu, T.J. & Kim, T., “A simplistic model for the tortuosity in two-phase close-celled porous media”, J. Phys D - Appl. Phys.46(12), 125305, 2013,DOI: 10.1088/0022-3727/46/12/125305

69.  Yang, X.H., Lu, T.J. & Kim, T., “Thermal stretching in two-phase porous media: physical basis for Maxwell model”, Theor. Appl. Mech. Lett. 3, 021011, 2013.

70.  Yang, X.H., Lu, T.J. & Kim, T., “Effective thermal conductivity modeling for closed-cell porous media with analytical shape factors”, Transport in Porous Media 99(2), 211-224, 2013.

71.  Yang, X.H., Bai, J.X., Kang, K-J., Lu, T.J. & Kim, T., “Effective thermal conductivity of wire-woven bulk Kagome”, Theor. Appl. Mech. Lett. 3, 021011, 2013.

72.  Yang, X.H., Kuang, J.J., Lu, T.J., Han, F.S. & Kim, T., “A simplistic analytical unit cell based model for the effective thermal conductivity of high porosity open-cell metal foams”, J. Phys D - Appl. Phys.46(25), 255302, 2013, DOI: 10.1088/0022-3727/46/25/255302

73.  Wang, X.L., Motola, D., Lu, T.J., Song, S.J. & Kim, T., “Impinging jet heat transfer from a circular cylinder in crossflow”, Int. J. Thermal Sci. 78, 1-8, 2014.

74.  Wang, X.L., Yan, H.B., Lu, T.J., Song, S.J. & Kim, T., “Heat transfer characteristics of an inclined impinging jet on a curved surface in crossflow”, ASME J. Heat Transfer 136, 081702, 2014.

75.  Yang, X.H., Bai, J.X., Kuang, J.J., Lu, T.J. & Kim, T., “An analytical unit cell model for the effective thermal conductivity of high porosity open-cell metal foams”, Transport in Porous Media 102(3), 403-426, 2014.

76.  Feng, S.S., Kuang, J.J., Wang, J. & Lu, T.J., “An experimental and numerical study of finned metal foam heat sinks under impinging air jet cooling”,International Journal of Heat and Mass Transfer 77, 1063-1074, 2014.

77.  Yang, X.H., Bai, J.X., Yan, H.B., Lu, T.J. & Kim, T., “Experimental investigation of chimney-enhanced natural convection in hexagonal honeycombs”, Theor. Appl. Mech. Lett. 4(3), 032005, 2014.

78.  Yang, X.H., Lu, T.J. & Kim, T., “An analytical model for permeability of isotropic porous media”,Physics Letters A378(30-31), 2308-2311, 2014.

79.  Wang, X.L., Lee, J.H., Song, S.J., Lu, T.J. & Kim, T., “A comparative study of single-/two-jet crossflow heat transfer on a circular cylinder,” International Journal of Heat and Mass Transfer78, 588-598, 2014.

80.  Yang, X.H., Bai, J.X., Kang, K-J., Lu, T.J. & Kim, T., “Experimental investigations of natural convection in wire-woven bulk Kagome”, Transport in Porous Media 105(1), 1-22, 2014.

81. 杨肖虎，邝九杰，白佳希，卢天健，金东范，“高孔隙率通孔金属泡沫有效导热系数的实验和理论研究”，《西安交通大学学报》，48(4): 79-84, 2014.

82. 杨肖虎，白佳希，卢天健，“通孔金属泡沫渗透率解析模型”，《力学学报》46(6)，982-986, 2014.

83. 杨肖虎，白佳希，卢天健，金东范，Kang Ki-Ju, “金属丝网编织Kagome自然对流实验研究”，《西安交通大学学报》48(7): 12-16, 2014.

84.  Yan, H.B., Zhang, Q.C., Lu, T.J. & Kim, T., “A lightweight X-type metallic lattice in single-phase forced convection”, Int. J. Heat Mass Transfer 83, 273-283, 2015.

85.  Yan, H.B., Mew, T., Lee, M.-G., Kang, K.-J., Lu, T.J., Kienhofer, F.W. & Kim, T., “Thermo-fluidic characteristics of a porous ventilated brake disc”, ASME J. Heat Transfer 137(2), 022601, 2015.

86.  Yan, H.B., Zhang, Q.C., Lu, T.J. & Kim, T., “An X-type lattice cored ventilated brake disc with enhanced cooling performance”, Int. J. Heat Mass Transfer 80, 458-468, 2015.

87.  Yang, X.H., Yan, H.B., Wang, W.B., Jin, L.W., Lu, T.J. & Koichi, I., “Thermo-fluidic characteristics of natural convection in honeycombs: the role of chimney enhancement”, Science in China E: Technical Sciences 58(8), 1318-1327, 2015.

88.  Feng, S.S., Kuang, J.J., Lu, T.J. & Ichimiya, K., “Heat transfer and pressure drop characteristics of finned metal foam heat sinks under uniform impinging flow”, ASME J. Electronic Packaging 137(2), 021014, 2015.

89.  Feng, S.S., Zhang, Y., Shi, M., Wen, T. & Lu, T.J., “Unidirectional freezing of phase change materials saturated in open-cell metal foams”, Applied Thermal Engineering 88, 315-321, 2015.

90.  Yan, H.B., Feng, S.S., Yang, X.H. & Lu, T.J., “Role of cross-drilled holes in enhanced cooling of ventilated brake discs”, Appl. Thermal Eng. 91, 318-333, 2015.

91.  Feng, S.S., Shi, M., Li, Y.F. & Lu, T.J., “Pore-scale and volume-averaged numerical simulations of melting phase change heat transfer in finned metal foam”, Int. J. Heat Mass Transfer 90, 838-847, 2015.

92. 邝九杰，冯上升，金东范，卢天健，“通孔铜泡沫冲击射流换热及流动可视化实验研究”， 《工程热物理学报》36(9): 2014-2017，2015

93.  Kuang, J.J., Wang, X.L., Feng, S.S., Lu, T.J. & Kim, T., “Role of laminar length of a round jet in determining heat transfer in metal foam”, AIAA J. Thermophysics and Heat Transfer 30(1), 103-110, 2016.

94.  Yang, X.H., Wang, W.B., Feng, S.S., Yang, C., Jin, L.W. & Lu, T.J., “Solidification of fluid saturated in open-cell metallic foams with graded morphologies”, Int. J. Heat Mass Transfer 98, 60-69, 2016.

95.  Shi, M., Manuchehrabadi, N., Clopton, A., Jinbin, Q., Xu, F., Lu, T. and Bischof, J., “Ultrarapid inductive rewarming of vitrified bulk biomaterials with metal foams”, Cryobiology 3(73), 422, 2016

96.  Yan, H.B., Zhang, Q.C. & Lu, T.J., “Heat transfer enhancement by X-type lattice in ventilated brake disc”, Int. J. Thermal Sci. 107, 39-55, 2016.

97.  Yang, X.H., Wang, W.B., Feng, S.S., Jin, L.W., Lu, T.J., Chai, Y. & Zhang, Q.L., “Thermal analysis of cold storage: the role of porous metal foam”, Energy Procedia88, 566-73, 2016.

98.  Wang, W.B., Yang, X.H., Han, B., Zhang, Q.C., Wang, X.F. & Lu, T.J., “Analytical design of effective thermal conductivity for fluid-saturated prismatic cellular metal honeycombs”, Theor. Appl. Mech. Lett. 6(2), 69-75, 2016.

99.  Shi, M., Ji, X., Feng, S.S., Feng, S.S., Yang, Q.Z., Lu, T.J. & Xu, F., “Self-propelled hovercraft based on cold leidenfrost phenomenon”, Scientific Reports 6, 28574, 2016.

100.  Yang, X.H., Wang, W.B., Zhang, Q.C. & Lu, T.J., “Effect of pore morphology on cross-property link for close-celled metallic foams”,J. Phys. D: Appl. Phys. 49(50), 505301, 2016.

101.  Yang, X.H., Yang, C., Hu, W.J., Jin, L.W., Wu, W.J. & Lu, T.J., “Permeability model of open-cell metal foam with surface roughness on cell ligaments”,Microfluid. Nanofluid. 21, 32-43, 2017.

102.  Yang, X.H., Wang, W.B., Feng, S.S., Jin, L.W., Lu, T.J., Chai, Y. & Zhang, Q.L., “The role of porous metal foam on the unidirectional solidification of saturating fluid for cold storage”, Applied Energy 194, 508-521, 2017.

103.  Yan, H.B., Feng, S.S., Lu, T.J. & Xie, G.N., “Experimental and numerical study of turbulent flow and enhanced heat transfer by cross-drilled holes in a pin-finned brake disc”, Int. J. Thermal Sci. 118: 355-366, 2017.

104.  Yan, H.B., Yang, X.H., Lu, T.J. & Xie, G.N., “Convective heat transfer in a lightweight multifunctional sandwich panel with X-type metallic lattice core”, Appl. Thermal Eng. 127, 1293-1304, 2017.

105.  Manuchehrabadi, D., Shi, M., Roy, P., Han, Z. H., Qiu, J.B., Xu, F., Lu, T.J. & Bischof, J., “Metal foam based rewarming of vitrified systems”,Cryobiology 81, 231, 2018.

106.  Yang, X.H., Li, Y., Zhang, L.Y., Jin, L.W., Wu, W.J. & Lu, T.J., “Thermal and fluid transport in micro-open-cell metal foams: effect of node size”, ASME J. Heat Transfer 140(1), 014502, 2018.

107.  Feng, S.S., Shi, M., Yan, H.B., Sun, Shanyouming & Lu, T.J., “Natural convection in a cross-fin heat sink”,Appl. Thermal Eng.132, 30-37, 2018.

108.  Manuchehrabadi, D., Shi, M., Roy, P., Han, Z. H., Qiu, J.B., Xu, F., Lu, T.J. & Bischof, J., “Ultrarapid inductive rewarming of vitrified biomaterials with thin metal forms”, Annals of Biomedical Engineering. 46(11): 1857-1869, 2018.

109.  Feng, S.S., Li, F.C., Zhang, F.H. & Lu, T.J., “Natural convection in metal foam heat sinks with open slots”, Experimental Thermal and Fluid Science 91, 354-362, 2018.

110.  Shi, M., Feng, S.S., Zhang, X.H., Ji, C.C., Xu, F. & Lu, T.J., “Droplet based vitrification for cell aggregates: numerical analysis”, Journal of the Mechanical Behavior of Biomedical Materials 82, 383-393, 2018.

111.  Yang, X.H., Guo, Z.X., Yang, C., Zhang, Q.L., Jin, L.W. & Lu, T.J., “Comparison of direct numerical simulation with volume-averaged method on composite phase change materials for thermal energy storage”, Appl. Eng. 11, 700-714, 2018.

112.  Yan, H., Zhang, Q., Chen, W., Xie, G., Dang, J. & Lu, T.J., "An X-lattice cored rectangular honeycomb with enhanced convective heat transfer performance," Applied Thermal Engineering. 166. 114687, 2020.

113.  Sun, S., Feng, S., Zhang, Q. & Lu, T.J., "Forced convection in additively manufactured sandwich-walled cylinders with thermo-mechanical multifunctionality," International Journal of Heat and Mass Transfer. 149, 119161, 2020.

114.  Bhaiyat, T.I., Lu, T.J. & Kim, T., "Lateral dispersion in a lattice porous heater core for compact operations," Applied Thermal Engineering. 176, 115430, 2020.

115.  Atkins, M.D., Kienhöfer, F.W., Lu, T.J. & Kim, T., "Local Heat Transfer Distributions Within a Rotating Pin-Finned Brake Disk," J. Heat Transfer. 142, 2020.

116.  Son, Y.W., Kim, T., Lu, T.J. & Chang, S.-M., "On thermally managing lithium-ion battery cells by air-convection aspirated in tetrahedral lattice porous cold plates," Applied Thermal Engineering. 189, 116711, 2021.

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