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Title: | Sensing Temperature and Stress Distributions on Rock Samples under Mechanical Loading |
Authors: | Olugbenga, Adeola Grace Antony, S. J. N. Ozerkan, O. Marumoame and G. Okeke |
Issue Date: | 2016 |
Publisher: | ASCE Earth & Space Conference |
Citation: | S. J. Antony • A. Olugbenga • N. Ozerkan • O. Marumoame • G. Okeke, Sensing Temperature and Stress Distributions on Rock Samples under Mechanical Loading, ASCE Earth & Space Conference 2016, Florida, USA; 04/2016 |
Abstract: | In the exploration of planetary materials using robotic probes, one of the key priorities is to establish fundamental level understandings on the mechanical response of materials under different levels of loading. In this context, though a number of strength characterisation tools are applied in the space industry, whole-field visualization of stress and temperature distribution on rock samples and their potential relevance to fracture under external loading is not yet well exploited. In this work, we apply two types of tomography namely (i) IR tomography and (ii) PSAT tomography to understand the variation of temperature and shear stress distribution respectively anywhere on the samples at point scale. Sandstone is used as a simulant material here. Potential links between the tomography measures and the fracture strength of the sandstone are revealed in this work. |
Description: | Rock materials such as sandstone are made of strongly bonded individual grains with different chemical compositions spread in the rock samples. For practical purposes, the sandstone material can be considered as a strongly bonded cementitious granular material (Hudson and Harrison, 2000; Wu et al 2000). Under mechanical loading, stress distribution and dislocation of grains in granular materials could occur in a nonhomogeneous manner (Antony 2007; Kruyt and Antony, 2007). Though a number of studies have focused on the strength evaluation of rock samples in the past (Hudson and Harrison, 2000; Wu et al, 2000; Hansen et al, 2011 ) key challenges such as measuring temperature and stress distribution in opaque rock samples at point scale and the correlations between them is not well understood under different mechanical loading conditions. These challenges are addressed in the present work. |
URI: | https://eprints.whiterose.ac.uk/96284/ http://repository.futminna.edu.ng:8080/jspui/handle/123456789/9812 |
Appears in Collections: | Chemical Engineering |
Files in This Item:
File | Description | Size | Format | |
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ASCE FINAL PAPER1.pdf | 363.83 kB | Adobe PDF | View/Open |
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