Journal
MATHEMATICS AND MECHANICS OF SOLIDS
Volume 15, Issue 1, Pages 78-95Publisher
SAGE PUBLICATIONS LTD
DOI: 10.1177/1081286508093581
Keywords
Polar-materials; microstructure; parameter-identification; structured continua; solid mechanics; variational methods
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We investigate the weakest possible constitutive assumptions on the curvature energy in linear Cosserat models still providing for existence, uniqueness and stability. The assumed curvature energy is mu L(c)(2) parallel to dev sym del axl (A) over bar parallel to(2) where axl (A) over bar is the axial vector of the skewsymmetric microrotation (A) over bar is an element of so(3) and dev is the orthogonal projection on the Lie-algebra sl(3) of trace free matrices. The proposed Cosserat parameter values coincide with values adopted in the experimental literature by R. S. Lakes. It is observed that unphysical stiffening for small samples is avoided in torsion and bending while size effects are still present. The number of Cosserat parameters is reduced from six to four. One Cosserat coupling parameter mu(c) > 0 and only one length scale parameter L(c) > 0. Use is made of a new coercive inequality for conformal Killing vectorfields. An interesting point is that no (controversial) essential boundary conditions on the microrotations need to be specified; thus avoiding boundary layer effects. Since the curvature energy is the weakest possible consistent with non-negativity of the energy, it seems that the Cosserat couple modulus mu(c) > 0 remains a material parameter independent of the sample size which is impossible for stronger curvature expressions.
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