Effect of Temperature and Comonomer Content on Thermal Behavior and Crystallization Property of the Propylene-Ethylene Random Copolymers

The effects of ethylene units content and crystallization temperature on the conformations, and the thermal and crystallization behavior were investigated by a combination of Fourier transform infrared (FTIR) spectroscopy, wide angle X-ray diffraction (WAXD), and differential scanning calorimetry (DSC). The characterization of FTIR spectroscopy proves that the longer helical conformation sequences of the propylene-ethylene random (PER) samples decrease, whereas the shorter helical conformation sequences increase with the increase in ethylene units content. The increase of the shorter helical conformation sequences is favorable for the formation of the -phase in the crystals. A group of broad endothermic peaks can be seen clearly in the DSC curves of PER copolymers, which may be associated with the melting of mixtures of the - and -forms in the crystals. The melting point, crystallization temperature, and crystallinity degree of the PER copolymers decrease with the increase in ethylene units contents. Three typical melting peaks of the PER copolymers crystallized isothermally between 80 degrees C and 130 degrees C were observed. The two higher melting peaks result from melting of the - and -phase in the crystals, whereas the materials crystallized on quenching give the lowest peak. The WAXD results confirm that the PER copolymers crystallize from the melt, as mixtures of and forms, in a wide temperature range. The critical number lim of the crystallizable units for the -form increases with the increase in crystallization temperature for PER copolymers, which is favorable for the formation of the phases. The amount of -form increases with the increase in crystallization temperature at the expense of its component, then reaches a maximum value at the crystallization temperature of 115 degrees C, and finally decreases with further increase in the crystallization temperature.