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Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/1715

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contributor.authorSethi, S-
contributor.authorPanda, P K-
contributor.authorNayak, R-
contributor.authorRay, B C-
identifier.citationJournal of Reinforced Plastics and Composites 31(2) Page-77-84(2011)en
descriptionCopyright for this paper belongs to Sage Publicationsen
description.abstractA series of flexure tests with varying cross head speed were conducted to study the mechanical behavior of glass/epoxy composites at low temperature. The micromechanics of damage growth and failures underpin the understanding of the revealed fractography. The 3-point flexure test of heat treated and untreated samples which were further exposed to low and ultra-low working temperatures of −20ºC,−40ºC,−60ºC,−80ºC was carried out. The interlaminar shear strength (ILSS) was found to be affected by these conditionings. The unbalanced and inhomogeneous stress concentration within entangled chain of matrix reduces conformational isomerism which in turn reduces the ILSS value considerably at low cross head speed. As increased cross head speed (strain rate), the matrix becomes brittle, and fracture strain decreases, but at very high strain rate, the fracture strain increases. The reason is anticipated to be adiabatic heating. Temperature modulated differential scanning calorimetry (TMDSC) shows increase in glass transition temperature (Tg). A change in cross head speed may results in variation of failure modes which is observed in scanning electron microscope (SEM).en
format.extent426920 bytes-
publisherSage Publicationsen
subjectGlass/epoxy compositeen
subject3-point flexure testen
subjectglass transition temperatureen
titleExperimental studies on mechanical behavior and microstructural assessment of glass/epoxy composites at low temperaturesen
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