论文信息 - A numerical analysis of contact and limit-point behavior in a class of problems of finite elastic deformation

A numerical analysis of contact and limit-point behavior in a class of problems of finite elastic deformation

Finite element methods for the analysis of bifurcations, limit-point behavior, and unilateral frictionless contact of elastic bodies undergoing finite deformation are presented. Particular attention is given to the development and application of Riks-type algorithms for the analysis of limit points and exterior penalty methods for handling the unilateral constraints. Applications focus on the problem of finite axisymmetric deformations, snap-through, and inflation of thick rubber spherical shells.

[1] G. Wempner. Discrete approximations related to nonlinear theories of solids , 1971 .

[2] M. Crisfield. A FAST INCREMENTAL/ITERATIVE SOLUTION PROCEDURE THAT HANDLES "SNAP-THROUGH" , 1981 .

[3] J. Oden. Finite Elements of Nonlinear Continua , 1971 .

[4] J. E. Adkins,et al. Large Elastic Deformations , 1971 .

[5] E. Riks. An incremental approach to the solution of snapping and buckling problems , 1979 .

[6] E. Riks. The Application of Newton's Method to the Problem of Elastic Stability , 1972 .

[7] J. T. Oden,et al. Finite strains and displacements of elastic membranes by the finite element method , 1967 .

[8] Joseph Padovan,et al. Formal convergence characteristics of elliptically constrained incremental Newton-Raphson algorithms , 1982 .