Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5206346 | Polymer Testing | 2013 | 6 Pages |
The in-plane Young's modulus of a CSM E-glass/epoxy material is characterised through the use of dynamic mechanical analysis (DMA). The measured data is used to generate material models which describe the property behaviour as a function of conversion and temperature. Gelation of the epoxy resin plays a major role in the modulus development and is measured directly on the glass/epoxy material. The Young's modulus is described through a bi-functional model including the liquid/solid transition of the material. The evolution of Young's modulus is modelled by decoupling modulus increments caused by time and temperature, and is graphically illustrated through a Modulus-Temperature-Transformation (MTT) diagram. Based on the established material models presented in this paper and models in Part-1, it is feasible to assess residual stresses and shape distortions of composite parts made from this glass/epoxy material.