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Residual stresses in autofrettaged vessel made of functionally graded material
Haghpanah Jahromi, B ; Sharif University of Technology
1162
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- Type of Document: Article
- DOI: 10.1016/j.engstruct.2009.07.019
- Abstract:
- We used an extension of the Variable Material Property method for materials with varying elastic and plastic properties to evaluate the residual stresses in an autofrettaged thick vessel made of functionally graded metal-ceramic composite. It is shown that the reinforcement of the metal vessel by ceramic particles, with an increasing ceramic volume fraction from inner to outer radius, increases the magnitude of compressive residual stresses at the inner section of an autofrettaged vessel and thus, could lead to better fatigue life and load-carrying capacity of the vessel. A parametric study is carried out to highlight the role of ceramic particle strength and spatial distribution, as well as the autofrettage pressure on the induced residual stresses in a thick vessel. © 2009 Elsevier Ltd. All rights reserved
- Keywords:
- Thick vessel ; Variable material property method ; Autofrettage ; Ceramic particle ; Ceramic volume fraction ; Compressive residual stress ; Fatigue life ; Functionally graded ; Load carrying capacities ; Metal-ceramic composites ; Parametric study ; Plastic property ; Spatial distribution ; Variable material property ; Beams and girders ; Boilers ; Caissons ; Ceramic materials ; Crack initiation ; Functional polymers ; Materials properties ; Pressure vessels ; Functionally graded materials ; Ceramics ; Elastoplasticity ; Fatigue ; Reinforcement ; Residual stress ; Stress analysis ; Vessel
- Source: Engineering Structures ; Volume 31, Issue 12 , 2009 , Pages 2930-2935 ; 01410296 (ISSN)
- URL: https://www.sciencedirect.com/science/article/pii/S014102960900248X