Determination and modeling of residual stress in functionally graded WC-Co

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Title Determination and modeling of residual stress in functionally graded WC-Co
Publication Type dissertation
School or College College of Mines & Earth Sciences
Department Metallurgical Engineering
Author Tahvilian, Leila
Date 2014-05
Description Gradual variations in composition and/or structure through the volume of functionally graded materials (FGMs) generally result in corresponding continuous spatial variations in mechanical/physical properties, and often in significant residual stresses that develop during processing. Due to inhomogeneous properties in these materials, residual stress measurement in FGMs can be a very challenging problem. In this study, residual stresses in functionally graded cemented tungsten carbide (FG-WCCo) were investigated by numerical, analytical and experimental approaches by means of a layer removal technique. The numerical method consisted of finite element analysis (FEA) modeling for the FGM plate, in order to calculate residual stress distribution over the volume and to develop a method for predicting residual stress levels in closely related materials. The analytical procedure embodied a mathematical approach to determine residual stress distributions, and analytically determined values are compared with those obtained from FEA modeling and experimental results. The experimental approach consisted of fabricating and heat treating FG-WC-Co flat samples, then measuring strain changes by strain gauge after each sequential layer removal from the opposite side of the specimen from the graded region. Good agreement was found between analytical, numerical and experimental results. Furthermore, thermal residual stress distribution in FG-WC-Co hollow cylinder was examined with an emphasis on the effects of key variables, the gradient profile and the gradient thickness, on the magnitude and distribution of the stress field. An analytical direct solution based on solving the governing equations of a cylinder composed of a uniform inner core and a functionally graded outer shell was developed. The cylindrical compound was considered as two separate elements: homogeneous cylinder and functionally graded shell. Material properties, such as the elastic modulus and the coefficient of thermal expansion (CTE), were considered to vary as a power function of the radius, and proper mechanical boundary conditions were imposed at the interface of the cylinders. Finally, having validated the FEA model for the FGM plate, the FEA model approach was investigated for more complex geometries, such as cylindrical and dometop inserts, and the effects o f different design and geometric parameters on the distribution of residual stress are presented.
Type Text
Publisher University of Utah
Subject Cemented tungsten carbide; Finite element analysis; Functionally graded materials; Layer removal technique; Residual stress
Dissertation Institution University of Utah
Dissertation Name Doctor of Philosophy
Language eng
Rights Management Copyright © Leila Tahvilian 2014
Format application/pdf
Format Medium application/pdf
Format Extent 2,593,104 Bytes
Identifier etd3/id/2930
ARK ark:/87278/s6060q5h
Setname ir_etd
ID 196499
Reference URL https://collections.lib.utah.edu/ark:/87278/s6060q5h
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