An investigation of the accelerated thermal degradation of different epoxy resin composites using X-ray microcomputed tomography and optical coherence tomography

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• 作者：Firas Awaja ; Benedicta Arhatari ; Karin Wiesauer ; Elisabeth Leiss ; David Stifter
• 关键词：Syntactic foam ; X-ray computed tomography ; Epoxy resin ; Optical coherence tomography ; Thermal damage
• 刊名：Polymer Degradation and Stability
• 出版年：2009
• 出版时间：October 2009
• 年：2009
• 卷：94
• 期：10
• 页码：1814-1824
• 全文大小：4128 K

文摘

Epoxy resin composites reinforced with hollow glass microspheres, microlight microspheres, 3D parabeam glass, and E-Glass individually were subjected to accelerated thermal degradation conditions. X-ray microcomputed tomography (XμCT) was used to evaluate density changes, reinforcement filler damage, homogeneity, cracks and microcracks in the bulk of the different epoxy resin composites. XμCT 3D images, 2D reconstructed images and voids calculations revealed microspheres damage, filler distributions and showed cracks in all composites with different shapes and volume in response to the thermal degradation conditions. In addition, expansion of air bubbles/voids was observed and recorded in the microsphere and microlight epoxy composite samples. In a complementary way, optical coherence tomography (OCT) was used as a novel optical characterisation technique to study structural changes of the surface and near-surface regions of the composites, uncovering signs of surface shrinkage caused by the thermal treatment. Thus, combining XμCT and OCT proved useful in examining epoxy resin composites' structure, filler–resin interface and surface characteristics.