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Published in:
Residual Stresses in Bovine Femurs Read chapter Read first chapter

2018 | OriginalPaper | Chapter

6. How Does Cristallizable Rubber Use Mechanical Energy to Deform?

Author : Jean-Benoît Le Cam

Published in: Residual Stress, Thermomechanics & Infrared Imaging, Hybrid Techniques and Inverse Problems, Volume 8

Publisher: Springer International Publishing

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Abstract

Strain-induced crystallization (SIC) is responsible for the hysteresis loop observed in the mechanical response of Natural Rubber (NR). The present paper aims at determining the physical origin of such mechanical energy dissipation. For that purpose, temperature variations are measured by using infrared thermography during cyclic uniaxial tensile tests at ambient temperature. Heat sources (heat power densities) produced or absorbed by the material due to deformation processes are deduced from temperature fields by using the heat diffusion equation. Energy balance performed for each deformation cycle shows that crystallization/melting process does not produce intrinsic dissipation. The crystallization/melting process dissipates mechanical energy without converting it into heat. Hence, the whole dissipated mechanical energy corresponds to energy used by the material to change its microstructure. The demonstration that NR is able to dissipate mechanical energy without converting it into heat explains its ability to resist the crack growth and the fatigue loading.

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previous chapter Calorific Signature of PLC Bands Under Biaxial Loading Conditions in Al-Mg Alloys
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Metadata
Title
How Does Cristallizable Rubber Use Mechanical Energy to Deform?
Author
Jean-Benoît Le Cam
Copyright Year
2018
Book
Residual Stress, Thermomechanics & Infrared Imaging, Hybrid Techniques and Inverse Problems, Volume 8

Print ISBN: 978-3-319-62898-1

Electronic ISBN: 978-3-319-62899-8

Copyright Year: 2018

DOI
https://doi.org/10.1007/978-3-319-62899-8_6

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