颗粒增强复合材料热膨胀系数预测模型的研究现状
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摘要
针对颗粒增强复合材料热膨胀系数经典和新近出现的性能预测模型进行了总结,讨论了研究热膨胀系数需要考虑的基本问题,对Kerner、Turner、Wang and Kwai、Schapery、Park、Sideridis、李燕、倪新华、石连生、陈康膨胀系数预测模型的代表性体积单元的选取、基本假设和适用条件进行了归纳,并对膨胀系数的进一步的研究提出了一些看法。
Several classical and recently emerged thermal expansion coefficient prediction models which are applicable for particle reinforced composites are summarized. The basic issues of thermal expansion need to be considered during research are discussed. The selecting of representative volume elements, fundamental assumption and conditions for the application of prediction models such as Kerner, Turner, Wang and Kwai, Schapery,Park, Sideridis, Yan Li, Xinhua Ni, Liangsheng Shi and Kang Chen are concluded. Some views on the further research of thermal expansion coefficient are presented.
Several classical and recently emerged thermal expansion coefficient prediction models which are applicable for particle reinforced composites are summarized. The basic issues of thermal expansion need to be considered during research are discussed. The selecting of representative volume elements, fundamental assumption and conditions for the application of prediction models such as Kerner, Turner, Wang and Kwai, Schapery,Park, Sideridis, Yan Li, Xinhua Ni, Liangsheng Shi and Kang Chen are concluded. Some views on the further research of thermal expansion coefficient are presented.
引文
[1]杜善义,王彪.复合材料细观力学[M].北京:科学出版社,2004:51~55.
[2]唐政.颗粒增强铝基复合材料的制备及组织与性能研究[D].重庆:重庆大学,2009.
[3]TRAN HUU NAM,GUILLERMO REQUENA,PETER DEGISCHER.Thermal expansion behaviour of aluminum matrix composites with densely packed Si C particles[J].Composites:Part A,2008,39:856~865.
[4]MASAYUKI MIZUMOTO,YOSHIHARU TAJIMA,AKIOKAGAWA.Thermal Expansion Behavior of Sicp/aluminum Alloy Composites Fabricated By a Low-pressure Infiltration Process[J].Materials Transactions,2004,45(5):1769~1773.
[5]ROHATGI P K GUPTA.N,SIMON ALARAJ.Thermal Expansion of Aluminum-fly Ash Cenosphere Composites Synthesized By Pressure Infiltration Technique[J].Journal of Composite Materials,2006,40(13):1163~1172.
[6]闫翔宇,袁颖,张树人.Si O2/Ti O2聚四氟乙烯复合材料的制备及热膨胀性能[J].复合材料学报,2013,30(6):108~113.
[7]王正道,蒋少卿,李艳,等.纳米Si O2PI复合薄膜低温热膨胀系数的实验研究[J].北京交通大学报,2005(1):44~47.
[8]CHOW T S.Effect of Particle Shape at Finite Concentration on the Elastic Moduli of Filled Polymers[J].Journal of Polymer Science,1978,16:959~965.
[9]FRIEDBERG A L,TUMMALA,R,R.Thermal Expansion of Composite Materials[J].Journal of Applied Physics,1970(41):5104~5107.
[10]COULSON.J A ARTHUR G,Physical Properties of Uranium Dioxide-stainless Steel Cermets[J].Journal of Nuclear Materials,1964,13(2):242~253.
[11]金日光,华幼卿.高分子物理(第三版)[M].北京:化学工业出版社,2006:135.
[12]LEE GYO WOO,JO HYU SANG.Thermal Expansion Coefficient and Youngs Modulus of Silica Reinforced Epoxy Composite[J].International Scholarly and Scientific Research&Innovation,2014,8:1063~1066.
[13]DAVID THOMPSON.A Simple Model of Thermal Expansion[J].European Journal of Physics,1995,17:85~87.
[14]周储伟.高体积含量颗粒增强复合材料的一个细观力学模型Ⅰ:弹性分析与等效模量[J].复合材料学报,2005,22(4):125~130.
[15]栾佰峰,唐政,黄天林,等.颗粒增强复合材料残余应力应变场的研究进展[J].材料导报,2009(S1):161~164.
[16]MA HONGLEI,HU GENGKAI,HUANG ZHUPING.A Micromechanical Method of Elastoplastic Property for Particulate Composites with Finite Particle Concentration[J].Mechanics of Materials,2004:359~368.
[17]梁基照.聚合物基复合材料增强增韧理论[M].广州:华南理工大学出版社,2012:2.
[18]CHAWLA K K,RAJENDRA U.VAIDYA.Thermal Expansion of Metal-matrix Composites[J].Composites Science and Technology,1994,50:13~22.
[19]NEEDLEMAN A,SURESH S,SHEN Y,L.Coefficients of Thermal Expansion of Metal Matrix Composites for Electronic Packaging[J].Metallurgical and Meterials Transactions a,1994,25A:839~850.
[20]曹龙飞.金属材料的热膨胀特性研究[D].武汉:武汉科技大学,2013.
[21]VASANTH CHAKRAVARTHY SHUNMUGASAMY,DINESH PINISETTY,NIKHIL GUPTA.Thermal Expansion Behavior of Hollow Glass Particle/vinyl Ester Composites[J].Journal of Materials Science,2012,47(14):5596~5604.
[22]KERNER,E,H.The Elastic and Thermo-elastic Properties of Composite Media[J].Proceedings of the Physical Society.section B,1956,69:808~813.
[23]PHILIP S,TURNER.Thermal-expansion Stresses in Reinforced Plastics[J].Journal of Research of the National Bureau of Standards,1946,37:239~250.
[24]KWEI,T,K,WANG,T,T.Effect of Induced Thermal Stresses on the Coefficients of Thermal Expansion and Densities of Filled Polymers[J].Journal of Polymer Science:part A-2,1969,7:889~896.
[25]SCHAPERY,R,A.Thermal Expansion Coefficients of Composite Materials Based on Energy Principles[J].Journal of Composite Materials,1968,2(3):380~404.
[26]PARK CHONG SUNG,MYUNG HO KIM,LEE.CHONGMU.A Theoretical Approach for the Thermal Expansion Behavior of the Particulate Reinforced Aluminum Matrix Composite Parti[J].Journal of Materials Science,2001,36:3579~3587.
[27]PAPANICOLAOU G C,SIDERIDIS E,A Theoretical Model for the Predication of the Thermal Expansion of Particulate Composites[J].Rheologica Acta,1988:608~616.
[28]李燕,卢平,刘佐民.颗粒增强复合材料热膨胀系数预测模型的研究[J].武汉理工大学学报,2009(17):39~42.
[29]刘协权,倪新华,路晓波.颗粒增强镍基合金热膨胀系数预报[J].稀有金属材料与工程,2005,34:273~274.
[30]倪新华,姚占军.椭球形陶瓷颗粒增强镍基合金复合涂层热膨胀系数预报[J].兵器材料科学与工程,2006,29(4):34~36.
[31]倪新华,孙涛,钟国辉.含脱粘界面颗粒性复合材料的有效热膨胀系数[J].固体力学学报,2010,31:17~20.
[32]石连升,刘红兵,王彪.预报复合材料热膨胀系数的细观力学模型[J].材料科学与工艺,1997(1):5~7.
[33]陈康,许希武.考虑夹杂间相互影响的颗粒增强两相复合材料等效热膨胀系数预测[J].南京航空航天大学学报,2011,43(6):718~722.
[2]唐政.颗粒增强铝基复合材料的制备及组织与性能研究[D].重庆:重庆大学,2009.
[3]TRAN HUU NAM,GUILLERMO REQUENA,PETER DEGISCHER.Thermal expansion behaviour of aluminum matrix composites with densely packed Si C particles[J].Composites:Part A,2008,39:856~865.
[4]MASAYUKI MIZUMOTO,YOSHIHARU TAJIMA,AKIOKAGAWA.Thermal Expansion Behavior of Sicp/aluminum Alloy Composites Fabricated By a Low-pressure Infiltration Process[J].Materials Transactions,2004,45(5):1769~1773.
[5]ROHATGI P K GUPTA.N,SIMON ALARAJ.Thermal Expansion of Aluminum-fly Ash Cenosphere Composites Synthesized By Pressure Infiltration Technique[J].Journal of Composite Materials,2006,40(13):1163~1172.
[6]闫翔宇,袁颖,张树人.Si O2/Ti O2聚四氟乙烯复合材料的制备及热膨胀性能[J].复合材料学报,2013,30(6):108~113.
[7]王正道,蒋少卿,李艳,等.纳米Si O2PI复合薄膜低温热膨胀系数的实验研究[J].北京交通大学报,2005(1):44~47.
[8]CHOW T S.Effect of Particle Shape at Finite Concentration on the Elastic Moduli of Filled Polymers[J].Journal of Polymer Science,1978,16:959~965.
[9]FRIEDBERG A L,TUMMALA,R,R.Thermal Expansion of Composite Materials[J].Journal of Applied Physics,1970(41):5104~5107.
[10]COULSON.J A ARTHUR G,Physical Properties of Uranium Dioxide-stainless Steel Cermets[J].Journal of Nuclear Materials,1964,13(2):242~253.
[11]金日光,华幼卿.高分子物理(第三版)[M].北京:化学工业出版社,2006:135.
[12]LEE GYO WOO,JO HYU SANG.Thermal Expansion Coefficient and Youngs Modulus of Silica Reinforced Epoxy Composite[J].International Scholarly and Scientific Research&Innovation,2014,8:1063~1066.
[13]DAVID THOMPSON.A Simple Model of Thermal Expansion[J].European Journal of Physics,1995,17:85~87.
[14]周储伟.高体积含量颗粒增强复合材料的一个细观力学模型Ⅰ:弹性分析与等效模量[J].复合材料学报,2005,22(4):125~130.
[15]栾佰峰,唐政,黄天林,等.颗粒增强复合材料残余应力应变场的研究进展[J].材料导报,2009(S1):161~164.
[16]MA HONGLEI,HU GENGKAI,HUANG ZHUPING.A Micromechanical Method of Elastoplastic Property for Particulate Composites with Finite Particle Concentration[J].Mechanics of Materials,2004:359~368.
[17]梁基照.聚合物基复合材料增强增韧理论[M].广州:华南理工大学出版社,2012:2.
[18]CHAWLA K K,RAJENDRA U.VAIDYA.Thermal Expansion of Metal-matrix Composites[J].Composites Science and Technology,1994,50:13~22.
[19]NEEDLEMAN A,SURESH S,SHEN Y,L.Coefficients of Thermal Expansion of Metal Matrix Composites for Electronic Packaging[J].Metallurgical and Meterials Transactions a,1994,25A:839~850.
[20]曹龙飞.金属材料的热膨胀特性研究[D].武汉:武汉科技大学,2013.
[21]VASANTH CHAKRAVARTHY SHUNMUGASAMY,DINESH PINISETTY,NIKHIL GUPTA.Thermal Expansion Behavior of Hollow Glass Particle/vinyl Ester Composites[J].Journal of Materials Science,2012,47(14):5596~5604.
[22]KERNER,E,H.The Elastic and Thermo-elastic Properties of Composite Media[J].Proceedings of the Physical Society.section B,1956,69:808~813.
[23]PHILIP S,TURNER.Thermal-expansion Stresses in Reinforced Plastics[J].Journal of Research of the National Bureau of Standards,1946,37:239~250.
[24]KWEI,T,K,WANG,T,T.Effect of Induced Thermal Stresses on the Coefficients of Thermal Expansion and Densities of Filled Polymers[J].Journal of Polymer Science:part A-2,1969,7:889~896.
[25]SCHAPERY,R,A.Thermal Expansion Coefficients of Composite Materials Based on Energy Principles[J].Journal of Composite Materials,1968,2(3):380~404.
[26]PARK CHONG SUNG,MYUNG HO KIM,LEE.CHONGMU.A Theoretical Approach for the Thermal Expansion Behavior of the Particulate Reinforced Aluminum Matrix Composite Parti[J].Journal of Materials Science,2001,36:3579~3587.
[27]PAPANICOLAOU G C,SIDERIDIS E,A Theoretical Model for the Predication of the Thermal Expansion of Particulate Composites[J].Rheologica Acta,1988:608~616.
[28]李燕,卢平,刘佐民.颗粒增强复合材料热膨胀系数预测模型的研究[J].武汉理工大学学报,2009(17):39~42.
[29]刘协权,倪新华,路晓波.颗粒增强镍基合金热膨胀系数预报[J].稀有金属材料与工程,2005,34:273~274.
[30]倪新华,姚占军.椭球形陶瓷颗粒增强镍基合金复合涂层热膨胀系数预报[J].兵器材料科学与工程,2006,29(4):34~36.
[31]倪新华,孙涛,钟国辉.含脱粘界面颗粒性复合材料的有效热膨胀系数[J].固体力学学报,2010,31:17~20.
[32]石连升,刘红兵,王彪.预报复合材料热膨胀系数的细观力学模型[J].材料科学与工艺,1997(1):5~7.
[33]陈康,许希武.考虑夹杂间相互影响的颗粒增强两相复合材料等效热膨胀系数预测[J].南京航空航天大学学报,2011,43(6):718~722.