The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic

A wide range of experimental methods exist for estimating residual stresses. None of these methods is suitable, however, for finding the longitudinal residual stresses that exist in an unloaded unidirectional laminate of glass fibre reinforced plastic. This work presents a method that enables the...

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Main Author: Reid, Robert Grant
Format: Others
Language:en
Published: 2010
Online Access:http://hdl.handle.net/10539/7756
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spelling ndltd-netd.ac.za-oai-union.ndltd.org-wits-oai-wiredspace.wits.ac.za-10539-77562019-05-11T03:40:24Z The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic Reid, Robert Grant A wide range of experimental methods exist for estimating residual stresses. None of these methods is suitable, however, for finding the longitudinal residual stresses that exist in an unloaded unidirectional laminate of glass fibre reinforced plastic. This work presents a method that enables these stresses to be measured. The method exploits the substantial reduction in the modulus of a thermoset matrix above its glass transition temperature, Tg. Restraint forces between the fibres and the matrix are thereby relaxed. The variation in the longitudinal residual strain of the fibres with temperature is estimated by gradually heating the laminate above the matrix Tg whilst monitoring the apparent longitudinal thermal expansion of the laminate. The longitudinal residual strains in the fibres can be estimated without any knowledge of the fibre or matrix properties. The consistancy of the measured residual strains is improved, however, if the known coefficient of thermal expansion of the fibre is incorporated into the strain calculations. In some situations, the accuracy of the residual strains can be further improved if temperature-dependent material properties for the matrix are also used. The longitudinal residual stress is easily calculated using Hooke’s Law once the residual strains are known. This approach is simple and very convenient because it requires no knowledge of any matrix properties. The accuracy of the residual stress measurements can be improved by considering Poisson’s stresses, however, but this is not always possible. The dramatic reduction in matrix modulus during each test prevents the use of standard methods and so a method to obtain the necessary strain measurements is developed. Strain-gauges cannot be used and an approach based on dilatometry is used instead. Displacement measurements taken between the ends of a specimen give erroneous results, however, and so it is necessary to use reference points that are located within the specimen length. Three sets of specimens were manufactured that differ in their longitudinal residual iv stress. The fibres in two specimen sets were significantly strained during manufacture of the specimens. The stresses in one of these sets were subsequently relaxed through an annealing process. No substantial fibre preloading was used during the manufacture of the third specimen set. Residual strains are measured in the fibres of the three specimen sets. The general form of the measured strain responses agrees well with the form required by the theoretical basis of the method. The results are also compared with strains predicted using the assumption of linear viscoelasticity in the matrix. The correlation is good except in the case of the annealed specimens. Since these specimens were subjected to non-linear creep during the manufacturing process, it is probable that the discrepancies reflect a deficiency in the theory rather than errors in the measured results. The residual stresses at ambient conditions are calculated for the three specimen sets. It is not possible to estimate the Poisson’s stresses in the annealed specimens, but these stresses do not significantly affect the longitudinal stresses in the other specimen sets. Although the measured residual stresses are small, the corresponding strains in the matrix are rather large. 2010-03-23T09:11:37Z 2010-03-23T09:11:37Z 2010-03-23T09:11:37Z Thesis http://hdl.handle.net/10539/7756 en application/pdf
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language en
format Others
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description A wide range of experimental methods exist for estimating residual stresses. None of these methods is suitable, however, for finding the longitudinal residual stresses that exist in an unloaded unidirectional laminate of glass fibre reinforced plastic. This work presents a method that enables these stresses to be measured. The method exploits the substantial reduction in the modulus of a thermoset matrix above its glass transition temperature, Tg. Restraint forces between the fibres and the matrix are thereby relaxed. The variation in the longitudinal residual strain of the fibres with temperature is estimated by gradually heating the laminate above the matrix Tg whilst monitoring the apparent longitudinal thermal expansion of the laminate. The longitudinal residual strains in the fibres can be estimated without any knowledge of the fibre or matrix properties. The consistancy of the measured residual strains is improved, however, if the known coefficient of thermal expansion of the fibre is incorporated into the strain calculations. In some situations, the accuracy of the residual strains can be further improved if temperature-dependent material properties for the matrix are also used. The longitudinal residual stress is easily calculated using Hooke’s Law once the residual strains are known. This approach is simple and very convenient because it requires no knowledge of any matrix properties. The accuracy of the residual stress measurements can be improved by considering Poisson’s stresses, however, but this is not always possible. The dramatic reduction in matrix modulus during each test prevents the use of standard methods and so a method to obtain the necessary strain measurements is developed. Strain-gauges cannot be used and an approach based on dilatometry is used instead. Displacement measurements taken between the ends of a specimen give erroneous results, however, and so it is necessary to use reference points that are located within the specimen length. Three sets of specimens were manufactured that differ in their longitudinal residual iv stress. The fibres in two specimen sets were significantly strained during manufacture of the specimens. The stresses in one of these sets were subsequently relaxed through an annealing process. No substantial fibre preloading was used during the manufacture of the third specimen set. Residual strains are measured in the fibres of the three specimen sets. The general form of the measured strain responses agrees well with the form required by the theoretical basis of the method. The results are also compared with strains predicted using the assumption of linear viscoelasticity in the matrix. The correlation is good except in the case of the annealed specimens. Since these specimens were subjected to non-linear creep during the manufacturing process, it is probable that the discrepancies reflect a deficiency in the theory rather than errors in the measured results. The residual stresses at ambient conditions are calculated for the three specimen sets. It is not possible to estimate the Poisson’s stresses in the annealed specimens, but these stresses do not significantly affect the longitudinal stresses in the other specimen sets. Although the measured residual stresses are small, the corresponding strains in the matrix are rather large.
author Reid, Robert Grant
spellingShingle Reid, Robert Grant
The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
author_facet Reid, Robert Grant
author_sort Reid, Robert Grant
title The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
title_short The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
title_full The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
title_fullStr The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
title_full_unstemmed The measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
title_sort measurement of longitudinal residual stresses in unidirectional glass fibre reinforced plastic
publishDate 2010
url http://hdl.handle.net/10539/7756
work_keys_str_mv AT reidrobertgrant themeasurementoflongitudinalresidualstressesinunidirectionalglassfibrereinforcedplastic
AT reidrobertgrant measurementoflongitudinalresidualstressesinunidirectionalglassfibrereinforcedplastic
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