Abstract
Effect of network-chain density ( ν) on the strain-induced crystallization of peroxide-crosslinked natural rubber was studied by fast time-resolved synchrotron wide-angle X-ray diffraction. It was observed that the elongation ratio at the onset of strain-induced crystallization ( α c) became smaller with the increase of ν. The difference of the entropy between the undeformed and deformed states at each α c was nearly equal in spite of the variation of ν. The calculated melting temperature at α c of the samples was also almost the same regardless of their ν. These observations mean that the strain-induced crystallization occurred when the deformation brought about a definite entropic state for peroxide-crosslinked natural rubber. They agreed with the prediction by Flory and were consistent with the classical theory of rubber elasticity.
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