A thermodynamically consistent constitutive equation for describing the response exhibited by several alloys and the study of a meaningful physical problem

There are many alloys used in orthopaedic applications that are nonlinear in the elastic regime even when the strains are ‘small’ (see Hao et al., 2005; Saito et al., 2003; Sakaguch et al., 2004). By using conventional theories of elasticity, either Cauchy or Green elasticity, it is impossible to sy...

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Published in	International journal of solids and structures Vol. 108; pp. 1 - 10
Main Authors	Devendiran, V.K., Sandeep, R.K., Kannan, K., Rajagopal, K.R.
Format	Journal Article
Language	English
Published	New York Elsevier Ltd 01.03.2017 Elsevier BV
Subjects	Alloying additive Alloys Constitutive equations Constitutive relationships Elasticity Generalization of linearized elastic model Gibbs potential Implicit elastic material Linearization Materials elasticity Mathematical analysis Nonlinear elastic Nonlinear response Plate with a hole Strain Stress state Nonlinear elastic Implicit elastic material Plate with a hole Generalization of linearized elastic model Gibbs potential
Online Access	Get full text
ISSN	0020-7683 1879-2146
DOI	10.1016/j.ijsolstr.2016.07.036

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Abstract	There are many alloys used in orthopaedic applications that are nonlinear in the elastic regime even when the strains are ‘small’ (see Hao et al., 2005; Saito et al., 2003; Sakaguch et al., 2004). By using conventional theories of elasticity, either Cauchy or Green elasticity, it is impossible to systematically arrive at constitutive equations, which would be applicable in the elastic domain of such metals as such materials exhibit non-linear response for small strains11The approximation is based on the displacement gradient being small which implies both the strain and the rotation are small. where the classical linearized response is supposed to hold in the sense that the norm of the squares of the displacement gradient are much smaller than the displacement gradient. We delineate a new framework for developing constitutive equations for a new class of elastic materials, termed as implicit elastic materials, which can be used to describe the response of such alloys. In addition to a fully implicit constitutive relation, we discuss a non-linear constitutive relation between the linearized strain and the stress that can be properly justified to describe the response of such alloys. By using the example of a rectangular plate with a hole subject to uniform loading, a classical problem, we illustrate the differences in the stress and strain fields when compared to that predicted by the classical linearized relation.
AbstractList	There are many alloys used in orthopaedic applications that are nonlinear in the elastic regime even when the strains are 'small' (see Hao et al., 2005; Saito et al., 2003; Sakaguch et al., 2004). By using conventional theories of elasticity, either Cauchy or Green elasticity, it is impossible to systematically arrive at constitutive equations, which would be applicable in the elastic domain of such metals as such materials exhibit non-linear response for small strains1 where the classical linearized response is supposed to hold in the sense that the norm of the squares of the displacement gradient are much smaller than the displacement gradient. We delineate a new framework for developing constitutive equations for a new class of elastic materials, termed as implicit elastic materials, which can be used to describe the response of such alloys. In addition to a fully implicit constitutive relation, we discuss a non-linear constitutive relation between the linearized strain and the stress that can be properly justified to describe the response of such alloys. By using the example of a rectangular plate with a hole subject to uniform loading, a classical problem, we illustrate the differences in the stress and strain fields when compared to that predicted by the classical linearized relation. There are many alloys used in orthopaedic applications that are nonlinear in the elastic regime even when the strains are ‘small’ (see Hao et al., 2005; Saito et al., 2003; Sakaguch et al., 2004). By using conventional theories of elasticity, either Cauchy or Green elasticity, it is impossible to systematically arrive at constitutive equations, which would be applicable in the elastic domain of such metals as such materials exhibit non-linear response for small strains11The approximation is based on the displacement gradient being small which implies both the strain and the rotation are small. where the classical linearized response is supposed to hold in the sense that the norm of the squares of the displacement gradient are much smaller than the displacement gradient. We delineate a new framework for developing constitutive equations for a new class of elastic materials, termed as implicit elastic materials, which can be used to describe the response of such alloys. In addition to a fully implicit constitutive relation, we discuss a non-linear constitutive relation between the linearized strain and the stress that can be properly justified to describe the response of such alloys. By using the example of a rectangular plate with a hole subject to uniform loading, a classical problem, we illustrate the differences in the stress and strain fields when compared to that predicted by the classical linearized relation.
Author	Sandeep, R.K. Kannan, K. Devendiran, V.K. Rajagopal, K.R.
Author_xml	– sequence: 1 givenname: V.K. surname: Devendiran fullname: Devendiran, V.K. email: vigneshkumardv@gmail.com organization: Department of Mechanical Engineering, Indian Institute of Technology Madras, Chennai 600036, India – sequence: 2 givenname: R.K. surname: Sandeep fullname: Sandeep, R.K. email: sandeep.rk.31@gmail.com organization: Department of Mechanical Engineering, Indian Institute of Technology Madras, Chennai 600036, India – sequence: 3 givenname: K. surname: Kannan fullname: Kannan, K. email: krishnakannan@iitm.ac.in organization: Department of Mechanical Engineering, Indian Institute of Technology Madras, Chennai 600036, India – sequence: 4 givenname: K.R. surname: Rajagopal fullname: Rajagopal, K.R. email: krajagopal@tamu.edu organization: Department of Mechanical Engineering, Texas A&M University, College Station, TX 77843, USA
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Cites_doi	10.1007/s00707-014-1289-8 10.1016/j.msec.2005.04.003 10.2320/matertrans.45.1113 10.1016/j.actamat.2010.02.010 10.1007/s00707-014-1178-1 10.1088/0370-1298/65/5/307 10.1007/s00033-006-6084-5 10.1016/j.matlet.2015.01.126 10.1016/j.ijsolstr.2013.11.014 10.1016/j.actamat.2011.01.048 10.1126/science.1081957 10.1007/s00033-010-0104-1 10.1016/j.msea.2007.07.097 10.1007/s00707-014-1293-z 10.1063/1.2037192 10.1016/j.ijnonlinmec.2010.10.002 10.1007/s00033-014-0398-5 10.1023/A:1026062615145 10.1007/s00707-013-1015-y 10.1007/s00707-012-0690-4 10.1016/j.scriptamat.2009.01.007 10.1098/rspa.1977.0166 10.1016/j.scriptamat.2010.03.011 10.1007/s10704-012-9772-5 10.1098/rspa.2006.1760 10.1007/s10704-016-0102-1
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Keywords	Nonlinear elastic Implicit elastic material Plate with a hole Generalization of linearized elastic model Gibbs potential
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Snippet	There are many alloys used in orthopaedic applications that are nonlinear in the elastic regime even when the strains are ‘small’ (see Hao et al., 2005; Saito... There are many alloys used in orthopaedic applications that are nonlinear in the elastic regime even when the strains are 'small' (see Hao et al., 2005; Saito...
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SubjectTerms	Alloying additive Alloys Constitutive equations Constitutive relationships Elasticity Generalization of linearized elastic model Gibbs potential Implicit elastic material Linearization Materials elasticity Mathematical analysis Nonlinear elastic Nonlinear response Plate with a hole Strain Stress state
Title	A thermodynamically consistent constitutive equation for describing the response exhibited by several alloys and the study of a meaningful physical problem
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