Morphology and properties of PC/ABS notebook computer shell prepared by a combined in-mold decoration and microcellular injection molding process

IF 3.2 4区工程技术 Q2 CHEMISTRY, APPLIED

Journal of Cellular Plastics Pub Date : 2024-02-20 DOI:10.1177/0021955x241233245

Yuemei Lu, Jianren Liu, Liandeng Wang

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引用次数: 0

Abstract

In this paper, the PC/ABS notebook computer shells with PET film were prepared using a combined in-mold decoration and microcellular injection molding (IMD/MIM) process. Then the surface quality, morphology, impact toughness and wear resistance were investigated. The results shown that the surface quality is improved by IMD/MIM technology. The three dimensional surface roughness value (Sa) was about 1/3 of that of MIM parts. The cross-section of IMD/MIM samples have three layers. The first layer is a PET film decoration layer with about 132 µm thickness, followed by skin layer (about 22 µm) and foam layer. The range of thickness of the foam layer for the different specimens is about 7803 µm–7820 µm.The cell diameter is between 0.532 µm and 0.638 µm, which is about 2 times than that of MIM parts. Compared with MIM parts, the shape of the bubbles of IMD/MIM parts is ellipsoid with thinner wall. Moreover, the impact toughness of IMD/MIM parts are higher. The best impact toughness is 21.02 KJ/m2 within the scope of this experiment, which is 74% higher than the corresponding MIM part under the same foaming process. This may due to the PET film and micropores could block the initiation of the tip crack. Meanwhile, the IMD/MIM parts have excellent wear resistance property. In most cases, the wear rate of IMD/MIM parts is about 36.6% of MIM part under the same condition.

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采用模内装饰和微孔注塑联合工艺制备的 PC/ABS 笔记本电脑外壳的形态和性能

本文采用模内装饰和微孔注射成型（IMD/MIM）组合工艺制备了带有 PET 薄膜的 PC/ABS 笔记本电脑外壳。然后对其表面质量、形态、冲击韧性和耐磨性进行了研究。结果表明，模内装饰/微孔注塑成型技术提高了表面质量。三维表面粗糙度值（Sa）约为 MIM 零件的 1/3。IMD/MIM 样品的横截面有三层。第一层是 PET 薄膜装饰层，厚度约为 132 微米，然后是表皮层（约 22 微米）和泡沫层。不同试样的泡沫层厚度范围约为 7803 µm-7820 µm。与 MIM 零件相比，IMD/MIM 零件的气泡形状呈椭圆形，壁更薄。此外，IMD/MIM 零件的冲击韧性更高。在本实验范围内，最佳冲击韧性为 21.02 KJ/m2，比相同发泡工艺下的相应 MIM 零件高 74%。这可能是由于 PET 薄膜和微孔可以阻止尖端裂纹的产生。同时，IMD/MIM 零件具有优异的耐磨性能。在大多数情况下，相同条件下 IMD/MIM 零件的磨损率约为 MIM 零件的 36.6%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Cellular Plastics 工程技术-高分子科学

CiteScore

5.00

自引率

16.00%

发文量

审稿时长

3 months

期刊介绍： The Journal of Cellular Plastics is a fully peer reviewed international journal that publishes original research and review articles covering the latest advances in foamed plastics technology.