Please use this identifier to cite or link to this item: http://dx.doi.org/10.25673/96506
Title: Inverse Hooke's law and complementary strain energy in coupled strain gradient elasticity
Author(s): Nazarenko, Lidiia
Glüge, RainerLook up in the Integrated Authority File of the German National Library
Altenbach, HolmLook up in the Integrated Authority File of the German National Library
Issue Date: 2021
Type: Article
Language: English
URN: urn:nbn:de:gbv:ma9:1-1981185920-984637
Subjects: Strain gradient elasticity
Coupling fifth-rank tensor
Complementary energy
Abstract: The inverse Hooke’s law and complementary strain energy density has been examined in the context of the theory of coupled gradient elasticity for second gradient materials. To this end, it was assumed that the potential energy density is a quadratic form of the strain and of the second gradient of displacement. Existence of the coupling term significantly complicates the problem. To avoid this complication the equation for the potential energy density was transformed in order to present it as an uncoupled quadratic form of a modified strain and the second gradient of displacement or of the strain and a modified second gradient of displacement. These transformations, which is in essence a blockmatrix diagonalization, lead to a decoupling of strains and strain gradient in the potential energy density andmakes it possible to determine tensorial relations for the compliance tensors of fourth-, fifth- , and sixth-rank. Both modifications result in the same compliance tensors and are valid for an arbitrary material symmetry class. In the case of hemitropic materials, the compliance tensors have the same symmetry and the same form as the stiffness tensors and are characterized by eight independent constants, namely the two classical isotropic constants, five constants in the strain gradient part and one constant in the coupling term. Explicit expressions for these eight parameters are obtained from the tensorial relations for the compliance tensors and are compared with the direct solution of a linear system for the compliance’s. All three solutions are identical, what we consider as a verification of the presented results.
URI: https://opendata.uni-halle.de//handle/1981185920/98463
http://dx.doi.org/10.25673/96506
Open Access: Open access publication
License: (CC BY-NC-ND 4.0) Creative Commons Attribution NonCommercial NoDerivatives 4.0(CC BY-NC-ND 4.0) Creative Commons Attribution NonCommercial NoDerivatives 4.0
Sponsor/Funder: Projekt DEAL 2021
Journal Title: ZAMM
Publisher: Wiley-VCH
Publisher Place: Berlin
Volume: 101
Issue: 9
Original Publication: 10.1002/zamm.202100005
Page Start: 1
Page End: 11
Appears in Collections:Fakultät für Maschinenbau (OA)

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