Issue 43, 2014
From the journal:

Soft Matter

Using infrared thermography to study hydrostatic stress networks in granular materials

Pawarut Jongchansitto,ab   Xavier Balandraud,*b   Michel Grédiac,b   Clément Beitoneb  and  Itthichai Preechawuttiponga  

* Corresponding authors

a Chiang Mai University, Faculty of Engineering, Department of Mechanical Engineering, 239 Huay Kaew Rd., Chiang Mai 50200, Thailand

b Clermont Université, Institut Pascal, UMR CNRS/UBP/IFMA 6602, Campus de Clermont Les Cézeaux, BP 80026, 63171 Aubière cedex, France
E-mail: xavier.balandraud@ifma.fr
Fax: +33 473288100
Tel: +33 473288089

Abstract

The macroscopic mechanical behaviour of granular materials is governed by microscopic features at the particle scale. Photoelasticimetry is a powerful method for measuring shear stresses in particles made from birefringent materials. As a complementary method, we here identify the hydrostatic stress networks through thermoelastic stress analysis using infrared thermographic measurements. Experiments are performed on two-dimensional cohesionless monodisperse granular materials composed of about 1200 cylinders comprising two constitutive materials. We show that the experimental hydrostatic stress distributions follow statistical laws which are in agreement with simulations performed using molecular dynamics, except in one case exhibiting piecewise periodic stacking. Polydisperse cases are then processed. The measurement of hydrostatic stress networks using this technique opens new prospects for the analysis of granular materials.

Graphical abstract: Using infrared thermography to study hydrostatic stress networks in granular materials

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Article information

DOI
https://doi.org/10.1039/C4SM01968G
Article type
Communication
Submitted
03 Sep 2014
Accepted
12 Sep 2014
First published
12 Sep 2014

Soft Matter, 2014,10, 8603-8607

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Using infrared thermography to study hydrostatic stress networks in granular materials

P. Jongchansitto, X. Balandraud, M. Grédiac, C. Beitone and I. Preechawuttipong, Soft Matter, 2014, 10, 8603 DOI: 10.1039/C4SM01968G

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