Structural evolution of PPR, PP/PE, and maleic anhydride-grafted PP/PE blends during uniaxial stretching and cooling studied by in situ SAXS and WAXD

IF 2.4 3区化学 Q3 POLYMER SCIENCE

Iranian Polymer Journal Pub Date : 2023-09-28 DOI:10.1007/s13726-023-01226-0

Wenjun Shao, Lizhi Liu, Ying Wang, Ye Cui, Yuanxia Wang, Lixin Song, Ying Shi

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Abstract

In situ SAXS/WAXD experiments were conducted to investigate the structural evolution and crystal growth of maleic anhydride (MAH)-grafted PP/PE and PPR blends (represented by PPR/EP55M), as well as their un-grafted blends (represented by PPR/EP55) during uniaxial stretching and cooling. Special attention was paid to the effect of MAH on pore formation under different stretching rates in the plastic deformation mechanism. The results show that the PPR/EP55 blend undergoes plastic deformation and forms micro-pores in the yield zone of PE. When stretched further in the MD direction, a long period increased through recrystallization and PE delayed the formation of holes caused by PP chain fracture. However, due to the incompatibility between PP and PE, the interfacial adhesion was poor and toughness of PPR/EP55 blends was significantly reduced compared to PP. The addition of MAH could increase the compatibility between PP and PE in the PPR/EP55M blends, allowing PE to enter the PP enrichment zone and promoted the conversion of PP-β to more stable α crystals with polymers that had stable properties. This improved the tensile strength of PE molecules and further delayed the fracture of PP molecular chains without affecting their toughness. We improved the research content on the impact of MAH on the mechanical properties of the PP/PE blends which has important guidance values for producing the protective pipes necessary for high-performance gas production drill pipes.

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原位SAXS和WAXD研究PPR、PP/PE和马来酸酐接枝PP/PE共混物在单轴拉伸和冷却过程中的结构演变

采用原位SAXS/WAXD实验研究了马来酸酐（MAH）接枝PP/PE和PPR共混物（以PPR/EP55M为代表）及其未接枝共混物（PPR/EP55为代表）在单轴拉伸和冷却过程中的结构演变和晶体生长。在塑性变形机制中，特别关注了不同拉伸速率下MAH对孔隙形成的影响。结果表明，PPR/EP55共混物发生塑性变形，在PE的屈服区形成微孔。当向MD方向进一步拉伸时，通过再结晶增加了长时间，PE延缓了PP链断裂引起的孔洞形成。然而，由于PP和PE之间的不相容性，与PP相比，PPR/EP55共混物的界面粘附性较差，韧性显著降低。在PPR/EP55M共混物中，MAH的加入可以提高PP和PE的相容性，允许PE进入PP富集区，并用具有稳定性能的聚合物促进PP-β向更稳定的α晶体的转化。这提高了PE分子的拉伸强度，并在不影响其韧性的情况下进一步延缓了PP分子链的断裂。我们改进了MAH对PP/PE共混物力学性能影响的研究内容，这对生产高性能采气钻杆所需的保护管具有重要的指导价值。图形摘要

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来源期刊

Iranian Polymer Journal 化学-高分子科学

CiteScore

4.90

自引率

9.70%

发文量

107

审稿时长

2.8 months

期刊介绍： Iranian Polymer Journal, a monthly peer-reviewed international journal, provides a continuous forum for the dissemination of the original research and latest advances made in science and technology of polymers, covering diverse areas of polymer synthesis, characterization, polymer physics, rubber, plastics and composites, processing and engineering, biopolymers, drug delivery systems and natural polymers to meet specific applications. Also contributions from nano-related fields are regarded especially important for its versatility in modern scientific development.