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Heat transfer

Author: Views:22Time:2018-11-05

  1. 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.

  2. 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.

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

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

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

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

  7. 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.

  8. 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.

  9. 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.

  10. 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.

  11. 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.

  12. 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.

  13. 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.

  14. 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.

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

  16. 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, 8th UK National Heat Transfer Conference, Oxford, 9-10 September 2003. J. Mechanical Engineering Science, IMechE Proceeding219, 183-191, 2005.

  17. 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.

  18. 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).   

  19. 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)

  20. 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.

  21. 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.

  22. 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.

  23. 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.

  24. 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.

  25. 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.

  26. 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.

  27. 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.

  28.  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): 2014-20172015

  29. 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.

  30. 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.

  31. 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

  32. 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.

  33. 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.

  34. 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.

  35. 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.

  36. 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.

  37. 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.

  38. 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.

  39. 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.

  40. 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.

  41. 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.

  42. 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.

  43. 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.

  44. 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.

  45. 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.

  46. Feng, S.S., Kim, T. & Lu, T.J., “Transition of heat transfer from planar wall jet to normal impinging slot jet”, Heat and Mass Transfer, 2018, in press.

  47. 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., 2017, in press.

  48. Feng, S.S., Sun-Shan, Y.M., Yan, H.B., Shi, M. & Lu, T.J., “Optimum mixture gas in a novel chimney-enhanced led bulb”, Int. J. Heat Mass Transfer, 2017, in press.

  49. 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, 2018, in press.

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