Solid-state characterization of polyethylene reactor powders and their structural changes upon annealing

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• 作者：Hiroki Uehara ; Ayako Uehara ; Masaki Kakiage ; Hiroshi Takahashi ; Syozo Murakami ; Takeshi Yamanobe ; Tadashi Komoto
• 关键词：Polyethylene ; Reactor powder ; ¹H NMR
• 刊名：Polymer
• 出版年：2007
• 出版时间：13 July 2007
• 年：2007
• 卷：48
• 期：15
• 页码：4547-4557
• 全文大小：2684 K

文摘

Polyethylene reactor powders prepared under different conditions were characterized using transmission electron microscopy, ¹H nuclear magnetic resonance and X-ray diffraction techniques. The molecular weight of the polyethylene reactor powders was around 1 × 10⁵. A unique domain morphology, quite different from the usual melt- or solution-crystallized lamellar structure, was observed, independent of polymerization temperature (T_poly). Annealing of reactor powders caused the aggregation of these crystalline domains, due to the significant molecular motion of the amorphous chains, before melting. The critical temperature was 20 °C higher than each T_poly, and corresponded to the temperature at the active catalyst site producing the chain growth. The morphologies of powders prepared at the lower T_poly contained smaller crystals that exhibited a constrained monoclinic form. In contrast, only usual orthorhombic crystals of larger size were found within the powder prepared at the higher T_poly. These results suggest that the competitive processes of chain propagation and crystal growth upon polymerization may lead to unique variations of the crystalline and amorphous phases, but with similar intermediate components in the phase that connects them.