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A platform for research: civil engineering, architecture and urbanism
Development of Constitutive Models for Poro-Hyperelastic Materials
This chapter is dedicated to the material modelling of polymers with a special focus on a transparent structural silicone adhesive. New material models are developed, which use the continuum mechanical basics presented in Chap. 2 and extend classical material models (see Chap. 3) to describe the structural behaviour of rubber-like materials especially under volumetric loading. Effects such as the cavitation effect, isochoric Mullins effect and effects under volumetric cyclic loading will be modelled with the developed material models.
Development of Constitutive Models for Poro-Hyperelastic Materials
This chapter is dedicated to the material modelling of polymers with a special focus on a transparent structural silicone adhesive. New material models are developed, which use the continuum mechanical basics presented in Chap. 2 and extend classical material models (see Chap. 3) to describe the structural behaviour of rubber-like materials especially under volumetric loading. Effects such as the cavitation effect, isochoric Mullins effect and effects under volumetric cyclic loading will be modelled with the developed material models.
Development of Constitutive Models for Poro-Hyperelastic Materials
Mechanik, Werkstoffe und Konstruktion im Bauwesen
Drass, Michael (author)
Constitutive Modelling and Failure Prediction for Silicone Adhesives in Façade Design ; Chapter: 5 ; 95-177
2020-02-22
83 pages
Article/Chapter (Book)
Electronic Resource
English
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| Springer Verlag | 2020
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Generalized cavitation criterion for poro-hyperelastic materials
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