Temperature dependence of the elastic modulus of crystalline regions of polyethylene with different microstructures—explanation with the kinked-chain model

Abstract

Abstract Temperature dependence of the elastic modulus E 1 of crystalline regions in the direction parallel to the chain axis has been measured by x-ray diffraction for various kinds of polyethylene (PE) with different microstructures. The E 1 value is 235 GPa for all kinds of PE at room temperature. However, in some cases, E 1 began to decrease at a certain temperature, in one case at 50°C and in one at 65°C. The lattice spacing for the (002) plane also decreased with increasing temperature. The thermal expansion coefficient αc changed discontinuously around the temperature range where E 1 began to decrease. This indicates that axial thermal molecular motion (i.e., incoherent thermal motion) is enhanced at high temperature. These phenomena could well be explained with the kinked-chain model where two gauche conformations are incorporated in the all-trans, fully extended conformation. The kinked chain deforms very easily through the change of internal rotation around the C—C bond, which has a small force ...