Failure of Polyethylene Terephthalate Assemblies

ASM Failure Analysis Case Histories: Automobiles and Trucks Pub Date : 2019-06-01 DOI:10.31399/asm.fach.auto.c0090451

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Abstract

Cracking occurred within the plastic jacket (injection molded from an impact-modified, 15% glass-fiber-reinforced PET resin.) of several assemblies used in a transportation application during an engineering testing regimen which involved cyclic thermal shock (exposing the parts to alternating temperatures of -40 and 180 deg C (-40 and 360 deg F)). Prior to molding, the resin had reportedly been dried at 135 deg C (275 deg F). The drying process usually lasted 6 h, but occasionally, the material was dried overnight. Comparison investigation (visual inspection, 20x SEM views, micro-FTIR, and analysis using DSC and TGA) with non-failed parts supported the conclusion that that the failure was via brittle fracture associated with the exertion of stresses that exceeded the strength of the resin as-molded caused by the disparity in the CTEs of the PET jacket and the mating steel sleeve. The drying process had exposed the resin to relatively high temperatures, which caused substantial molecular degradation, thus limiting the part's ability to withstand the stresses. The drying temperature was found to be significantly higher than the recommendation for the PET resin, and the testing itself exposed the parts to temperatures above the recognized limits for PET.

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聚对苯二甲酸乙二醇酯组件失效

在一次工程测试中，运输应用中的几个组件的塑料外壳(由抗冲击改性的15%玻璃纤维增强PET树脂注塑而成)在循环热冲击(将部件暴露在-40和180摄氏度(-40和360度)的交替温度下)中发生了开裂。据报道，在成型之前，树脂在135摄氏度(275华氏度)下干燥。干燥过程通常持续6小时，但偶尔也会在一夜之间干燥。对未失效部件的对比研究(目视检查、20倍扫描电镜、微红外光谱以及DSC和TGA分析)支持这样的结论，即失效是由于PET夹套和配套钢套的cte差异造成的应力作用超过树脂模态强度而导致的脆性断裂。干燥过程使树脂暴露在相对较高的温度下，这导致了大量的分子降解，从而限制了零件承受压力的能力。发现干燥温度明显高于PET树脂的推荐温度，并且测试本身将部件暴露在高于PET公认极限的温度下。

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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ASM Failure Analysis Case Histories: Automobiles and Trucks

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