The effect of preliminary orientation on environmental crazing of high-density polyethylene films

Abstract

This work presents the study of the effect of preliminary orientation on mechanical and structural behavior of semicrystalline polymers upon environmental intercrystallite crazing (EIC) for pristine and pre-oriented high-density polyethylene (HDPE) by atomic force microscopy, wide-angle X-ray diffraction, birefringence, mechanical tests, pressure-driven liquid permeability, etc. Preliminary orientation of HDPE (PO) was performed in air at 100 °C. At moderate PO degrees (below 75%), PO HDPE samples preserve their ability to experience EIC. Finally, there exists a certain critical PO degree when the EIC process is found to be totally suppressed (100% for HDPE in n-heptane). The reasons behind the EIC suppression are primarily related to reduced sorptional capacity of the intercrystallite amorphous phase and to a partial fragmentation of crystalline lamellae. General prerequisite conditions providing the development of the EIC process for semicrystalline polymers are outlined.