COHESION-DRIVEN RECIRCULATION OF A POLYMER SOLIDS BED IN A SCREW SIMULATOR

机译：螺杆模拟器中聚合物固体床的凝聚驱动换向

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This paper demonstrates a previously unnoted heat transfer mechanism for solids-conveying in an extruder which certain polymers exhibit. It was found in this study that polyethylenes readily demonstrate bed circulation in a geometry representative of a lid-driven cavity. This granular advective term for heat transfer in the heated chamber resulted in a more rapid rise in overall bed temperature compared to plug-like conditions. The mechanism for this circulation appeared to be a cohesion-dominated phenomenon which requires adhesive forces at the rotating surface to exceed the internal cohesive strength of the solids bed. Conversely, other materials like polypropylene and polystyrene did not readily show this behavior except under more extreme conditions.

机译：本文证明了某些聚合物在挤出机中用于固体输送的传热机理是以前未曾注意到的。在这项研究中发现，聚乙烯很容易在代表盖子驱动型腔的几何形状中证明床层循环。与塞状条件相比，这种在加热室内传热的粒状对流项导致床层总温度上升更快。这种循环的机制似乎是内聚力主导的现象，该现象要求旋转表面上的粘附力超过固体床的内部内聚强度。相反，除非在更极端的条件下，其他材料（如聚丙烯和聚苯乙烯）都不会轻易显示这种行为。

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《Annual technical conference of the Society of Plastics Engineers;Technical conference of the Society of Plastics Engineers;ANTEC 2009》|2011年|p.142-146|共5页
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M.R. Thompson; S. Rahim; A.S. Alotaibi;
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中图分类有机质材料;
关键词
cohesion; solids bed; circulation; screw simulator;

机译：凝聚;固体床循环;螺丝模拟器;

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COHESION-DRIVEN RECIRCULATION OF A POLYMER SOLIDS BED IN A SCREW SIMULATOR

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