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Elastoplastic stress study in thick-walled spherical vessels considering finite deformation
Darijani, H ; Sharif University of Technology | 2006
176
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- Type of Document: Article
- Publisher: 2006
- Abstract:
- An exact elasto-plastic analytical solution for large-strained internal pressurized thick-walled spherical vessels made of elastic-linear and nonlinear hardening material is derived in this paper. This solution is based on the notion of finite strains, the deformation theory of Hencky and the yield criteria of von Mises and Tresca. Nolinear elastic solution of an axisymetric boundary value problem is used as a basis to generate its inelastic solution, whereas the Hyper-elastic constitutive equation is invoked to represent the material response in the elastic region. This method treats the material parameters as field variables. Their distributions are obtained in an iterative manner using Nuber's rule. Obtained Results for stress distribution using the present method shown are in excellent agreement with only analytical result which has been determined in the case of isochoric volume. Copyright © 2006 by ASME
- Keywords:
- Elastoplastic stress ; Finite strains ; Isochoric volume ; Nuber's rule ; Spherical vessels ; Deformation ; Elastic moduli ; Elastoplasticity ; Hardening ; Iterative methods ; Pressurization ; Stress analysis ; Nonlinear control systems
- Source: 8th Biennial ASME Conference on Engineering Systems Design and Analysis, ESDA2006, Torino, 4 July 2006 through 7 July 2006 ; Volume 2006 , 2006 ; 0791837793 (ISBN); 9780791837795 (ISBN)
- URL: https://asmedigitalcollection.asme.org/ESDA/proceedings-abstract/ESDA2006/42487/475/316074