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均布荷载作用下功能梯度悬臂梁弯曲问题的解析解 被引量:32

A GENERAL SOLUTION OF A CLAMPED FUNCTIONALLY GRADED CANTILEVER-BEAM UNDER UNIFORM LOADING
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摘要 采用弹性力学半逆解法,假设所有材料常数沿梁厚度方向按同一函数规律变化,求得了功能梯度悬臂梁在均布载荷作用下的解析解.该解退化到各向同性均匀弹性情况时与已有的理论解相一致.对弹性模量按指数函数梯度变化的算例进行了分析.所得到的解对任意梯度函数均成立,可作为数值解以及简化理论的检验依据. This paper studies the bending problem of a clamped functionally graded cantilever-beam under uniform loading. The problem was firstly treated as a plane stress case and the basic equations of the orthotropic elastic materials were given. Assuming that the mechanical properties of the material have the same dependence on the thickness-coordinate, we obtained a general solution of the beam subjected to a uniform loading at the upper surface by using a semi-inverse method. Degenerate results for the special case of an isotropic homogeneous elastic beam are coincided well with the existing analytical solutions. Some numerical examples are also given by assuming an exponential gradient function. This solution is valid for arbitrary gradient functions, so it could serve as a benchmark result to assess other approximate methodologies or as a basis for establishing simplified functionally grade beam theories.
作者 于涛 仲政
机构地区 同济大学航空航天与力学学院
出处 《固体力学学报》 CAS CSCD 北大核心 2006年第1期15-20,共6页 Chinese Journal of Solid Mechanics
基金 国家杰出青年科学基金项目(10125209) 国家自然科学基金重点项目(10432030)资助
关键词 功能梯度材料 悬臂梁 均布载荷 半逆解法 functionaUy graded material, cantilever-beam, uniform loading, semi-inverse method
分类号 TB34 [一般工业技术—材料科学与工程]
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参考文献13

  • 1Hirai T,Chen L.Recent and prospective development of functionally graded materials in Japan.Materials Science Forum,1999,308~311:509~514
  • 2Almajid A,Taya M,Hudnut S.Analysis of out-of-plane displacement and stress field in a piezocomposite plate with functionally graded microstructure.Int J Solid Struct,2001,38:3377~3391
  • 3Wu X H,Chen C Q,Shen Y P,Tian X G.A high order theory for functionally graded piezoelectric shells.Int J Solid Struct,2002,39:5325~5344
  • 4Chen W Q,Ding H J.On free vibration of a functionally graded piezoelectric rectangular plate.Acta Mechanica,2002,153:207~216
  • 5Tanigawa Y,Ootao Y,Kawamura R.Thermal bending of laminated composite rectangular plates and nonhomogeneous plates due to partial heating.Journal of Thermal Stresses,1991,14:285~308
  • 6李永,宋健,张志民.功能梯度材料悬臂梁受复杂载荷作用的分层剪切理论[J].宇航学报,2002,23(4):62-67. 被引量:7
  • 7Rogers T G,Watson P,Spencer A J M.An exact three-dimensional solution for normal loading of inhomogeneous and laminated anisotropic elastic plates of moderate thickness.Proc R Soc Lond A,1992,437:199~213
  • 8Rogers T G,Watson P,Spencer A J M.Exact three-dimensional elasticity solutions for bending of moderately thick inhomogeneous and laminated strips under normal pressure.Int J Solids Struct,1995,32:1659~1673
  • 9吴瑞安 仲政 金波.功能梯度压电材料矩形板的三维分析[J].固体力学学报,2002,23:43-49.
  • 10仲政,尚尔涛.功能梯度热释电材料矩形板的三维精确分析[J].力学学报,2003,35(5):542-552. 被引量:27

二级参考文献32

  • 1王晓明,沈亚鹏.热压电变分原理[J].固体力学学报,1995,16(3):198-206. 被引量:10
  • 2Wang YM, Tam JQ. A three-dimensional analysis of anisotropic inhomogeneous and laminated plates. Int J Solids Struct, 1994, 31:497-515.
  • 3Cheng ZQ, Lim CW, Kitipornchai S. Three-dimensional asymptotic approach to inhomogeneous and laminated piezoelectric plates, Int J Solids Struct, 2000, 37:3153-3175.
  • 4Rogers TG, Watson P, Spencer AJM. An exact three-dimensional solution for normal loading of inhomogeneous and laminated anisotropic elastic plates of moderate thickness. Proc R Soc Lond A, 1992, 437:199-213.
  • 5Rogers TG, Watson P, Spencer AJM. Exact three-dimensional elasticity solutions for bending of moderately thick inhomogeneous and laminated strips under normal pressure. Int J Solids Struct, 1995, 32:1659-1673.
  • 6Chen WQ, Ding HJ. On free vibration of a functionally graded piezoelectric rectangular plate. Acta Mechanica,2002, 153:207-216.
  • 7Li C, Weng GJ. Yoffe-type moving crack in a functionally graded piezoelectric material. Proceedings of the Royal Society of London, 2001, A458:381-399.
  • 8Jin B, Zhong Z. A moving mode-III crack in functionally graded piezoelectric material: permeable problem. Mechanics Research Communications, 2002, 29:217-224.
  • 9Hirai T, Chen L. Recent and prospective development of functionally graded materials in Japan. Materials Science Forum, 1999, 308-311:509-514.
  • 10Zhu XH, Meng ZY. Operational principle , fabrication and displacement characteristics of a functionally gradient piezoelectric ceramic actuator. Sensors and Actuators A,1995, 48:169-176.

共引文献34

同被引文献278

引证文献32

二级引证文献231

固体力学学报
2006年 第1期

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