Fracture mechanisms in rigid core-shell particle modified high performance epoxies |
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| Authors: | H. -J. Sue E. I. Garcia Meitin D. M. Pickelman C. J. Bott |
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| Affiliation: | (1) Materials Science Group Analytical and Engineering Sciences Department Texas Polymer Center, Dow Chemical U.S.A., 77541 Freeport, Texas, USA;(2) Advanced Polymeric Laboratory Central Research, The Dow Chemical Company, 48674 Midland, Minnesota, USA;(3) Present address: Department of Mechanical Engineering, Texas A & M University, 77843-3123 College Station, Texas, USA |
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| Abstract: | The fracture mechanisms of a high performance epoxy system modified with two types of preformed rigid core-shell particles (RCSP) were investigated. The use of the preformed RCSP anables the control of the dispersion of the toughener phase in the epoxy, which, in turn, allows the mechanical properties of the modified epoxy to be optimized. The toughening effect via the RCSP modification is found to be as good as that via the core-shell rubber modification. The moduli andTg of these RCSP-modified epoxies are virtually unaltered via the RCSP modification, when compared with the neat epoxy resin equivalent. The toughening mechanisms in these toughened systems appear to be predominantly crack deflection, crack bifurcation, and microcracking. Approaches for effective toughening of high performance polymers via rigid polymers are discussed. |
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| Keywords: | Rigid-rigid polymer toughening concept high performance epoxy toughening mechanisms rigid core-shell particle microcracking |
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