Identification of Heterogeneous Constitutive Parameters in a Welded Specimen: Uniform Stress and Virtual Fields Methods for Material Property Estimation |
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| Authors: | M A Sutton J H Yan S Avril F Pierron S M Adeeb |
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| Institution: | 1.Department of Mechanical Engineering,University of South Carolina,Columbia,USA;2.Ecole Nationale Supérieure d’Arts et Métiers,Chalons en Champagne,France;3.Department of Civil and Environmental Engineering,University of Alberta, 3-016 Markin/CNRL Natural Resources Engineering Facility,Edmonton,Canada;4.Departement of Health Science and Engineering,Ecole Nationale Supérieure des Mines de Saint-Etienne,Saint-Etienne Cedex 2,France |
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| Abstract: | Local strain data obtained throughout the entire weld region encompassing both the weld nugget and heat affected zones (HAZs)
are processed using two methodologies, uniform stress and virtual fields, to estimate specific heterogeneous material properties
throughout the weld zone. Results indicate that (a) the heterogeneous stress–strain behavior obtained by using a relatively
simple virtual fields model offers a theoretically sound approach for modeling stress–strain behavior in heterogeneous materials,
(b) the local stress–strain results obtained using both a uniform stress assumption and a simplified uniaxial virtual fields
model are in good agreement for strains ɛ
xx < 0.025, (c) the weld nugget region has a higher hardening coefficient, higher initial yield stress and a higher hardening
exponent, consistent with the fact that the steel weld is overmatched and (d) for ɛ
xx > 0.025, strain localization occurs in the HAZ region of the specimen, resulting in necking and structural effects that complicate
the extraction of local stress strain behavior using either of the relatively simple models.
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| Keywords: | Material parameter identification Heterogeneous weld zone Virtual fields method Computer vision Digital image correlation |
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