Titlebook: Hyperelasticity Primer; Robert M. Hackett Textbook 20161st edition Springer International Publishing Switzerland 2016 1st, 2nd, 3rd, and 4

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書目名稱Hyperelasticity Primer影響因子(影響力)

書目名稱Hyperelasticity Primer影響因子(影響力)學科排名

書目名稱Hyperelasticity Primer網(wǎng)絡(luò)公開度

書目名稱Hyperelasticity Primer網(wǎng)絡(luò)公開度學科排名

書目名稱Hyperelasticity Primer被引頻次

書目名稱Hyperelasticity Primer被引頻次學科排名

書目名稱Hyperelasticity Primer年度引用

書目名稱Hyperelasticity Primer年度引用學科排名

書目名稱Hyperelasticity Primer讀者反饋

書目名稱Hyperelasticity Primer讀者反饋學科排名

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Finite Elasticity,troduction of a strain-energy (or stored-energy) function into elasticity is due to George Green (1793–1841) and elastic solids for which such a function is assumed to exist are said to be Green elastic or hyperelastic. Elasticity without an underlying strain-energy function is called Cauchy elastic

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Polar Decomposition,olar decomposition theorem states that any deformation gradient tensor can be multiplicatively decomposed into the product of an orthogonal tensor, known as the rotation tensor, and a symmetric tensor called the right stretch tensor, or into the product of a symmetric tensor called the left stretch

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Strain-Energy Functions,unction of the three invariants of each of the two Cauchy-Green deformation tensors, given in terms of the principal extension ratios, or stretches. A number of different strain-energy formulations exist, having properties and characteristics that make them appropriate for characterizing different h

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Stress Measures,ensor, a Lagrangian formulation, is the most significant of the stress measures. The formulation and steps for computing it are presented in terms of the Mooney-Rivlin strain-energy function model. The Cauchy stress tensor, an Eulerian formulation, is obtained directly from the second Piola-Kirchhof

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Tangent Moduli, is linear, the stiffness does not change as deformation changes. However, for a hyperelastic model, differentiating the strain-energy function with respect to either the finite strain tensor or one of the two Cauchy-Green deformation tensors yields elastic “constants,” the magnitude of which depend

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