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Numerical Simulation Analysis of Unfilled and Filled Reinforced Polypropylene on Thin-Walled Parts Formed Using the Injection-Moulding Process

机译：使用注塑工艺形成的薄壁部件上未填充和填充增强聚丙烯的数值模拟分析

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Thin-walled moulding technology has attracted increasing attention, particularly in electronic packing applications. The injection moulding of shallow, thin-walled parts with a thickness of 0.7 mm was performed using three types of materials from polypropylene, PP (PP, PP + 50 wt% wood composite, and PP + 10 wt% glass fibre composite). The highest deflection resulting from PP + 50 wt% wood does not occur in the critical area of the thin-walled part compared with PP + 10 wt% glass fibre. In addition, the results revealed that the warpage at the midpoint of the part surface injected using PP + 50 wt% wood is 0.04 mm lower than the value of 0.08 mm obtained when injected using PP + 10 wt% glass fibre. The warpage was hypothesised to result from the residual stress caused by nonuniform volumetric shrinkages formed during the solidification phase.

机译：薄壁的成型技术引起了越来越多的关注，特别是在电子包装应用中。使用来自聚丙烯，PP（PP，PP + 50wt％木复合材料和PP + 10wt％玻璃纤维复合物的三种材料进行厚度为0.7mm的浅，薄壁部件的注射成型。与PP + 10wt％玻璃纤维相比，PP + 50wt％木材产生的最高偏转不会发生在薄壁部分的临界区域中。此外，结果表明，使用PP + 50wt％木材注入的部分表面的中点的翘曲比使用PP + 10wt％玻璃纤维注入时为0.04mm的0.04mm。假设翘曲是由在凝固相期间形成的非均匀体积收缩引起的残余应力产生。

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M. D. Azaman; S. M. Sapuan; S. Sulaiman; E. S. Zainudin; A. Khalina;
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年度 2015
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原文格式 PDF
正文语种 eng
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入库时间 2022-08-20 22:15:45

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1. Numerical Simulation Analysis of Unfilled and Filled Reinforced Polypropylene on Thin-Walled Parts Formed Using the Injection-Moulding Process [J] . M. D.Azaman, S. M.Sapuan, S.Sulaiman, International Journal of Polymer Science . 2015,第1期

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2. Optimization and Numerical Simulation Analysis for Molded Thin-Walled Parts Fabricated Using Wood-Filled Polypropylene Composites via Plastic Injection Molding [J] . Azaman M. D., Sapuan S. M., Sulaiman S., Polymer engineering and science . 2015,第5期

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3. Shrinkages and warpage in the processability of wood-filled polypropylene composite thin-walled parts formed by injection molding [J] . M.D. Azaman, S.M. Sapuan, S. Sulaiman, Materials & design . 2013,第deca期

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Numerical Simulation Analysis of Unfilled and Filled Reinforced Polypropylene on Thin-Walled Parts Formed Using the Injection-Moulding Process

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