Visco-Hyperelastic Model with Damage for Simulating Cyclic Thermoplastic Elastomers Behavior Applied to an Industrial Component

Visco-Hyperelastic Model with Damage for Simulating Cyclic Thermoplastic Elastomers Behavior Applied to an Industrial Component

In this work a nonlinear phenomenological visco-hyperelastic model including damage consideration is developed to simulate the behavior of Santoprene 101-73 material. This type of elastomeric material is widely used in the automotive and aeronautic sectors, as it has multiple advantages. However, th...

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Bibliographic Details
Published in:Polymers Vol. 10; no. 6; p. 668
Main Authors: Tobajas, Rafael, Elduque, Daniel, Ibarz, Elena, Javierre, Carlos, Canteli, Alfonso F, Gracia, Luis
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 15-06-2018
MDPI
Subjects:
Aeronautics
Air intakes
Automobile industry
Automotive engineering
Automotive engines
Computer simulation
cyclic uniaxial loading
Damage
mechanical characterization
Mechanical engineering
Optimization techniques
Rubber
Software
Thermoplastic elastomers
visco-hyperelasticity
Viscoelasticity
United States > US
Spain
damage
cyclic uniaxial loading
thermoplastic elastomers
visco-hyperelasticity
mechanical characterization
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Summary:In this work a nonlinear phenomenological visco-hyperelastic model including damage consideration is developed to simulate the behavior of Santoprene 101-73 material. This type of elastomeric material is widely used in the automotive and aeronautic sectors, as it has multiple advantages. However, there are still challenges in properly analyzing the mechanical phenomena that these materials exhibit. To simulate this kind of material a lot of theories have been exposed, but none of them have been endorsed unanimously. In this paper, a new model is presented based on the literature, and on experimental data. The test samples were extracted from an air intake duct component of an automotive engine. Inelastic phenomena such as hyperelasticity, viscoelasticity and damage are considered singularly in this model, thus modifying and improving some relevant models found in the literature. Optimization algorithms were used to find out the model parameter values that lead to the best fit of the experimental curves from the tests. An adequate fitting was obtained for the experimental results of a cyclic uniaxial loading of Santoprene 101-73.
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ISSN:2073-4360
2073-4360
DOI:10.3390/polym10060668