Enhanced Crystallinity Development of Poly-Lactic Acid by Dynamic Melt Manipulation

Volume 2B: Advanced Manufacturing Pub Date : 2021-11-01 DOI:10.1115/imece2021-73392

P. Gao, A. Kundu, K. Alqosaibi, J. Coulter

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引用次数: 3

Abstract

The primary objective of this research was to gain fundamental insight on the effect of imposed shear rates by dynamic melt modulation during injection molding on the crystallinity development of PLA. The dynamic melt modulation was achieved by a Dynamic & Intelligent Shear-Controlled Injection Molding (DISC-IM) instrument that utilized an in-house developed control system capable of oscillating the injection screw. The melt modulation process proved to be an efficient processing technique for enhanced properties in a particular commercial grade of PLA that contained various additives. The cycle time was reduced by 40% and total crystallinity was increased by ∼50% during DISC-IM as compared to the conventional injection molding under similar conditions. The oscillatory movements also promoted the formation of a phase crystalline structures on the surface layer of the samples. The crystallization behavior of neat PLA was dramatically enhanced by 1wt.% of orotic acid. Introduction of DISC-IM enhanced the crystallinity of PLA-OA blends from 25% to 56% at a mold temperature of 70°C. Although, the overall crystallinity was relatively similar for different DISC-IM conditions, the crystalline phases that were formed was different. DISC-IM process promoted the formation of á phases for PLA-OA blends.

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动态熔体操纵增强聚乳酸结晶度的研究

本研究的主要目的是获得注射成型过程中通过动态熔体调制施加剪切速率对PLA结晶度发展的影响的基本见解。动态熔体调制是通过动态智能剪切控制注射成型(DISC-IM)仪器实现的，该仪器利用了内部开发的能够振荡注射螺杆的控制系统。熔体调制工艺被证明是一种有效的加工技术，用于提高含有各种添加剂的特定商业级PLA的性能。与类似条件下的常规注射成型相比，在DISC-IM过程中，循环时间缩短了40%，总结晶度提高了~ 50%。振荡运动还促进了样品表层相晶结构的形成。加入1wt后，聚乳酸的结晶行为显著增强。%的乳香酸。在70℃的模温下，引入DISC-IM使PLA-OA共混物的结晶度从25%提高到56%。虽然在不同的DISC-IM条件下，整体结晶度相对相似，但形成的晶相不同。DISC-IM工艺促进了PLA-OA共混物相的形成。

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

Volume 2B: Advanced Manufacturing

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