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刚性板间圆形不可压缩橡胶垫的载荷—压缩关系(英文) 被引量:1

Load-Compression Relationship of Incompressible Circular Rubber Pad Bonded between Rigid Plates
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摘要 对刚性板间橡胶垫的载荷—压缩关系的准确预报在很多工程应用中都至关重要。过去对该问题理论解的研究大多数基于线弹性理论,且很少适用于有限应变问题。文章推导了刚性板间圆形不可压缩橡胶垫的载荷—压缩关系。基于两个运动学假设和连续介质力学理论进行推导,并考虑了Mooney-Rivlin材料。文中将推导的公式计算结果与有限元计算结果及其它已有公式进行了比较和讨论,证明了文中提出的公式有足够的精度,并适用于各种形状系数和有限应变问题。 The accurate prediction of the load-deformation relationship of the reinforced rubber blocks is of great importance for many engineering applications. Most of the previous researches of the the- oretical resolution on this issue are based on the linear elastic theory and few of them are valid for finite strain problems. In this paper, a load-compression relationship of the reinforced incompress- ible circular rubber pad is derived. The Mooney-Rivlin material is considered. The derivation is based on two kinematic assumptions and continuum mechanics theory. The results calculated by the derived formula are compared with the FEM solutions and the results of other existing formulae. The results are discussed and the derived formula is proved to have adequate accuracy and valid for various shape factors and for finite strain problems.
作者 郑轶刊 张世联
机构地区 上海交通大学船舶海洋与建筑工程学院
出处 《船舶力学》 EI CSCD 北大核心 2015年第6期711-722,共12页 Journal of Ship Mechanics
关键词 载荷-压缩关系 橡胶垫 Mooney-Rivlin 有限应变 load-compression relationship rubber pad Mooney-Rivlin finite strain
分类号 O342 [理学—固体力学]
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参考文献14

  • 1Morman K N, Pan T Y. Application of finite-element analysis in the design of automotive elastomeric components[J]. Rubber Chem. Tech., 1988, 61: 503-533.
  • 2Tsai H C, Lee C C. Compressive stiffness of elastic layers bonded between rigid plates[J]. International Journal of Solids and Structures, 1998, 35: 3053-3069.
  • 3Gent A N, Lindley P B. The compression of bonded rubber blocks[J]. Proceeding of the Institution of Mechanical Engi- neers, 1959, 173: 111-117.
  • 4Gent A N, Meinecke E A. Compression, bending and shear of bonded rubber blocks[J]. Polymer Engineering and Sci- ences, 1970, 10: 48-53.
  • 5Kelly J M. Earthquake-resistant design with rubber[M]. London: Springer, 1993.
  • 6Chalhoub M S, Kelly J M. Analysis of infinite-strip-shaped base isolator with elastomer bulk compression[J]. Journal of Engineering Mechanics ASCE, 1991, 117: 1791-1805.
  • 7Chalhoub M S, Kelly J M. Effect of bulk compressibility on the stiffness of cylindrical base isolation bearings[J]. Interna- tional Journal of Solids and Structures, 1990, 26: 734-760.
  • 8Koh C G, Kelly J M. Effects of axial load on elastomeric isolation bearings[R]. Report no. UCB/EERC-86/12, Berkeley: Earthquake Engineering Research Center, University of California, 1987.
  • 9Koh C G, Kelly J M. Compression stiffness of bonded square layers of nearly incompressible material[J]. Engineering Structures, 1989, 11: 9-15.
  • 10Tsai H C, Pal W J. Simplified stiffness formulae for elastic layers bonded between rigid plates[J]. Engineering Structures, 2003, 25: 1443-1454.

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船舶力学
2015年 第6期

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