材料科学
聚合物
复配
消散
复合材料
粘弹性
变形(气象学)
工作(物理)
热力学
物理
作者
Bainian Qian,David B. Todd,Costas G. Gogos
摘要
Abstract Plastic energy dissipation (PED) of polymer particulates is, essentially, the energy dissipated during large and repeated plastic deformations of compacted polymer particulates while still in the solid state. PED is higher or much higher than VED, the viscous energy dissipation source of polymeric melts, because the stresses necessary to plastically deform viscoelastic polymer solids are orders of magnitude higher than the stresses needed to support viscous flow. In the last few years our group has demonstrated experimentally the dominant role which PED plays in the heating/melting of solid polymer (compacted) particulate beds in compounding processing equipment, such as twin‐screw extruders and counterrotating continuous mixers/melters, in which the deformation of solid polymers is mandatory. We have also developed simple empirical methods of predicting the total axial distance needed for melting a given polymer in specific processing/compounding machines and processing. conditions, as well as the melting rates, all based on the mechanical energy dissipated during solid particulate compression. This work explores the more complex issue of how the PED behavior of single‐component polymers may affect the PED (and the heating/melting) behavior of multi‐component polymer blends. © 2003 Wiley Periodicals, Inc. Adv Polym Techn 22: 85–95, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/adv.10039
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