Estimating Slow Crack Growth Performance of Polyethylene Resins from Primary Structures such as Molecular Weight and Short Chain Branching

DesLauriers PJ; Rohlfing DC

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Estimating Slow Crack Growth Performance of Polyethylene Resins from Primary Structures such as Molecular Weight and Short Chain Branching

机译：从分子量和短链支化等主要结构估算聚乙烯树脂的缓慢裂纹扩展性能

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Molecular weight and short chain branching (SCB) data experimentally obtained by SEC-FTIR are combined into a single, primary structural parameter (PSP2) and used to rapidly screen the slow crack growth resistance of a variety of polyethylene resins. Our results show that PSP2 values obtained for resins made using different catalysts (both dual and single catalyst systems) and hence, different polymer architectures, correlate well with results obtained from several short-term tensile tests. The development of PSP2, as well as the qualitative and quantitative predictive ability of this parameter are presented and discussed.

机译：通过SEC-FTIR实验获得的分子量和短链支化（SCB）数据被合并为一个主要的结构参数（PSP2），并用于快速筛选各种聚乙烯树脂的耐慢速裂纹扩展性能。我们的结果表明，使用不同催化剂（双催化剂系统和单催化剂系统）制得的树脂（因此具有不同的聚合物结构）获得的PSP2值与数项短期拉伸试验的结果具有良好的相关性。介绍并讨论了PSP2的开发以及该参数的定性和定量预测能力。

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《Macromolecular symposia 》 |2009年第null期| 共14页
作者
DesLauriers PJ; Rohlfing DC;
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正文语种 eng
中图分类高分子化学（高聚物） ;
关键词
polyethylene; primary structure parameter; SEC-FTIR; short chain; branching; slow crack growth; structure property relations;

机译：聚乙烯;一级结构参数;SEC-FTIR;短链;分支;慢速裂纹扩展;结构性能关系;

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1. Estimating Slow Crack Growth Performance of Polyethylene Resins from Primary Structures such as Molecular Weight and Short Chain Branching [J] . DesLauriers PJ, Rohlfing DC Macromolecular symposia . 2009 ,第Null期

机译：从分子量和短链支化等主要结构估算聚乙烯树脂的缓慢裂纹扩展性能
2. Short-chain branching distribution oriented model development for Borstar bimodal polyethylene process and its correlation with product performance of slow crack growth [J] . Tian Zhou, Chen Ke-Ran, Liu Bo-Ping, Chemical Engineering Science . 2015 ,第Null期

机译：Borstar双峰聚乙烯工艺的短链支化分布导向模型开发及其与慢速裂纹扩展产品性能的关系
3. Short-chain branching distribution oriented model development for Borstar bimodal polyethylene process and its correlation with product performance of slow crack growth [J] . Tian Zhou, Chen Ke-Ran, Liu Bo-Ping, Chemical Engineering Science . 2015 ,第Null期

机译：Borstar双峰聚乙烯工艺的短链支化分布导向模型开发及其与慢速裂纹扩展产品性能的关系
4. PREDICTING SLOW CRACK GROWTH RESISTANCE IN POLYETHYLENE RESINS USING A SINGLE, PRIMARY STRUCTURAL PARAMETER (PSP2) [C] . Paul J. DesLauriers Society of Plastics Engineers International Polyolefins Conference . 2013

机译：使用单一的结构参数（PSP2）预测聚乙烯树脂中的缓慢裂纹生长抗性
5. The relationship between molecular structure and slow crack growth behavior in polyethylene. [D] . Huang, Yanling. 1990

机译：聚乙烯中分子结构与缓慢裂纹扩展行为之间的关系。
6. Dominant Effects of Short-Chain Branching on the Initial Stage of Nucleation and Formation of Tie Chains for Bimodal Polyethylene as Revealed by Molecular Dynamics Simulation [O] . Yanling Hu, Yunqi Shao, Zhen Liu, 2019

机译：分子动力学模拟显示短链支化对双峰聚乙烯成核和连接链形成初期的显著作用
7. Ultradrawing Gel Films of Blends of Ultrahigh-Molecular-Weight Polyethylene and Low-Molecular-Weight Polyethylenes with Varying Short-Chain Branched Lengths [O] . Jen-Taut Yeh, Hung-Chang Wu 1998

机译：超高分子量聚乙烯和低分子量聚乙烯混合物的超伸出凝胶薄膜，具有不同的短链支化长度
8. INVESTIGATION OF THE SHELF LOFE OF LIQUIDS IN POLYETHYLENE BOTTLES Part 3 – Investigation of the Effets of Molecular Weight, Chain Branching, and Irradiation on Polyethylene With Regard to Shelf Life in Bottles [R] . JULES PINSKY, A. R. NIELSEN, J. H. PARLIMAN 1956

机译：聚乙烯瓶中液体堆积物的研究第3部分 - 聚乙烯中分子量，链支化和辐照对瓶中保质期的影响的研究

Estimating Slow Crack Growth Performance of Polyethylene Resins from Primary Structures such as Molecular Weight and Short Chain Branching

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