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材料工程 2009

多孔材料模型分析

, PP. 83-87

刘培生,夏凤金,罗军

Keywords: 泡沫材料,多孔材料,泡沫金属,多孔金属

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Abstract:

多孔泡沫材料的制备、应用和性能研究均不断取得新的进展.在关于多孔材料结构和性能方面的理论中,著名的经典性模型——Gibson-Ashby模型一直受到国际同行的普遍认同,迄今仍然是众多研究者在研究工作中广泛应用的理论基础.对该模型尚存在的若干不足和问题进行了一些补充思考和分析,发现其中有些缺陷甚至可以打破该模型原来表现出来的"完满性".在总结陈述这些问题的基础上,引荐了可以克服或弥补上述模型不足的另一个模型.

References

[1]	刘培生.多孔材料引论[M].北京:清华大学出版社,2004.
[2]	WADLEY H N G,FLECK N A,EVANS A G.Fabrication and structural performance of periodic cellular metal sandwich structures[J].Composites Science and Technology,2003,63:2331-2343.
[3]	HUTCHINSON R G,FLECK N A.Microarchitectured cellular solids-the hunt for statically determinate periodic trusses[A].Plenary lecture presented at the 75th Annual GAMM Conference[C].Dresden,Germany:Zamm-Zeitschrift fur Angewandte Mathematik und Mechanik,2005.607-617.
[4]	刘培生.关于多孔材料的新模型[J].材料研究学报,2006,20(1):64-68.
[5]	MAITI S K,ASHBY M F,GIBSON L J.Fracture toughness of brittle cellular solids[J].Scripta Metallurgica,1984,18(3):213-217.
[6]	GIBSON L J,ASHBY M F,ZHANG J,et al.Failure surfaces for cellular materials under multiaxial loads --I.Modelling[J].Int J Mech Sci,1989,31(9):635-663.
[7]	TRIANTAFILLOU T C,ZHANG J,SHERCLIFF T L,et al.Failure surfaces for cellular materials under multiaxial loads --II.Comparison of models with experiment[J].Int J Mech Sci,1989,31(9):665-678.
[8]	TRIANTAFILLOU T C,GIBSON L J.Multiaxial failure criteria for brittle foams[J].Int J Mech Sci,1990,32(6):479-496.
[9]	SIMONE A E,GIBSON L J.Aluminum foams produced by liquid-state process[J].Acta Mater,1998,46(9):3109-3123.
[10]	ANDREWS E,SANDERS W,GIBSON L J.Compressive and tensile behavior of aluminum foams[J].Materials Science and Engineering A,1999,270:113-124.
[11]	ANDREWS E W,GIBSON L J,ASHBY M F.The creep of cellular solids[J].Acta Mater,1999,47(10):2853-2863.
[12]	COCKS A C F,ASHBY M F.Creep-buckling of cellular solids[J].Acta Mater,2000,48:3395-3400.
[13]	GIOUX G,MCCORMACK T M,GIBSON L J.Failure of aluminum foams under multiaxial loads[J].International Journal of Mechanical Sciences,2000,42:1097-1117.
[14]	LIU P S,LI T F,FU C.Calculation formula for apparent electrical resistivity of high porosity metal materials[J].Science in China,1999,42(3):294-301.
[15]	LIU P S,FU C,LI T F.Approximate means for evaluating tensile strength of high porosity materials[J].Trans Nonferrous Met Soc China,1999,9(1):70-78.
[16]	LIU P S,LIANG K M.Evaluating electrical resistivity for high porosity metals[J].Mater Sci Technol,2000,16(3):341-343.
[17]	LIU P S,WANG X S,LUO H Y.Relationship between tensile strength and porosity for foamed metals under equal speed biaxial tension[J].Mater Sci Technol,2003,19(6):985-987.
[18]	刘培生.泡沫金属双向拉伸破坏时名义应力与孔率的关系[J].中国科学,2003,E33(9):774-777.
[19]	LIU P S.Different theories application to foamed metals under biaxial equal-stress tension[J].Mater Sci Eng,2004,A364:370-373.
[20]	LIU P S.Tensile fracture behavior of foamed metallic materials properties[J].Mater Sci Eng A,2004,384 (1-2):352-354.
[21]	GIBSON L J,ASHBY M F.多孔固体结构与性能[M].刘培生译.北京:清华大学出版社,2003.
[22]	DESHPANDE V S,FLECK N A,ASHBY M F.Effective properties of the octet-truss lattice material[J].Journal of the Mechanics and Physics of Solids,2001,49(8):1747-1769.
[23]	GUEST S D,HUTCHINSON.On the determinacy of repetitive structures[J].Journal of the Mechanics and Physics of Solids,2003,51:383-391.
[24]	LIU J S,LU T J.Multi-objective and multi-loading optimization of ultralightweight truss materials[J].International Journal of Solids and Structure,2004,41(3-4):619-635.
[25]	杨思一,吕广庶.具有规则孔型的泡沫金属结构设计与制造方法研究[A].2004年中国材料研讨会论文摘要集[C].北京:中国材料研究学会,2004.481.
[26]	KIM T,HODSON H P,LU T J.Contribution of vortex structures and flow separation to local and overall pressure and heat transfer characteristics in an ultralightweight lattice material[J].International Journal of Heat and Mass Transfer,2005,48 (19-20):4243-4264.
[27]	QUEHEILLALT D T,WADLEY H N G.Cellular metal lattices with hollow trusses[J].Acta Materialia,2005,53:303-313.
[28]	MOHR D.Mechanism-based multi-surface plasticity model for ideal truss lattice materials[J].International Journal of Solids and Structure,2005,42 (11-12):3235-3260.
[29]	刘培生.泡沫金属的经典性模型--Gibson-Ashby模型浅析[J].有色金属,2005,57(2):55-57.
[30]	GONG L,KYRIAKIDES S,TRIANTAFYLLIDIS N.On the stability of Kelvin cell foams under compressive loads[J].Journal of the Mechanics and Physics of Solids,2005,53(4):771-794.
[31]	LIU P S,LI T F,FU C.Relationship between electrical resistivity and porosity for porous materials[J].Mater Sci Eng A,1999,268:208-215.
[32]	LIU P S,FU C,LI T F.Relationship between elongation and porosity for porous metal materials[J].Trans Nonferrous Met Soc China,1999,9(3):546-552.
[33]	LIU P S,FU C,LI T F,et al.Relationship between tensile strength and porosity for high porosity materials[J].Science in China,1999,42(1):100-107.
[34]	LIU P S.The tensile strength of porous metals with high porosity[J].J Adv Mater,2000,32(2):9-16.

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