Influence of high temperature GPC/SEC detection modes on the accurate molar mass estimation of slurry phase multimodal HDPE reactor materials

Journal of Elastomers & Plastics Pub Date : 2022-12-06 DOI:10.1177/00952443221144741

Y. Subbaiah, Qua Eng Hau, Ghazai Miqad Al Otaibi

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Abstract

In the present study, trimodal high-density polyethylene (tri-HDPE) slurry phase samples from the polymerization reactors were subjected to high temperature gel permeation chromatography/size exclusion chromatography (HT-GPC/SEC) analysis. The molecular weight (Mw) and its distributions were evaluated using commercially available HT-GPC instruments equipped with different detection modes (DRI, IR5 MCT, and light scattering). The SEC studies reveal the fact that there is a considerable challenge in generating a repeatable and reproducible data for the reactor grade HDPE samples which could be attributed to different detection modes employed and instability of HDPE reactor grades which are susceptible to undergo thermo-oxidative degradation during HT-GPC analysis. Among various instrumentation and detection modes investigated, the HT-GPC with IR5 MCT detection showed reliable results (%Error <15) when compared with absolute Mw data obtained from MALS detection. Based on the findings, proposed suitable SEC mode to characterize the HDPE reactor grade polymer samples.

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高温GPC/SEC检测模式对浆相多模态HDPE反应器材料摩尔质量准确估计的影响

本研究采用高温凝胶渗透色谱/粒径排除色谱(HT-GPC/SEC)对聚合反应器中的三模态高密度聚乙烯(tri-HDPE)浆相样品进行分析。利用市售的HT-GPC仪器评估分子量(Mw)及其分布，这些仪器配备了不同的检测模式(DRI、IR5 MCT和光散射)。SEC的研究揭示了这样一个事实，即在为反应器级HDPE样品生成可重复和可再现的数据方面存在相当大的挑战，这可能归因于所采用的不同检测模式和HDPE反应器等级的不稳定性，在HT-GPC分析过程中，HDPE反应器等级容易发生热氧化降解。在研究的各种仪器和检测模式中，与MALS检测获得的绝对Mw数据相比，采用IR5 MCT检测的HT-GPC显示出可靠的结果(%误差<15)。在此基础上，提出了适用于HDPE反应器级聚合物样品表征的SEC模型。

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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Journal of Elastomers & Plastics

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