Relaxation of Nylon Wire Clips

ASM Failure Analysis Case Histories: Automobiles and Trucks Pub Date : 2019-06-01 DOI:10.31399/asm.fach.auto.c0090433

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Abstract

A production lot of plastic wire clips was failing after limited service. The failures were characterized by excessive relaxation of the clips, such that the corresponding wires were no longer adequately secured in the parts. No catastrophic failures had been encountered. Parts representing an older lot, which exhibited satisfactory performance properties, were also available for reference purposes. The clips were specified to be injection molded from an impact-modified grade of nylon 6/6. However, the part drawing did not indicate a specific resin. Investigation included visual inspection, micro-FTIR in the ATR mode, and analysis using DSC. The spectrum representing the reference parts showed a relatively higher level of a hydrocarbon-based impact modifier, while the results obtained on the failed parts showed the presence of an acrylic-based modifier. Also, the reference clip thermogram showed a melting transition attributed to a hydrocarbon-based impact modifier. The conclusion was that the control and failed clips had been produced from two distinctly different resins. It appeared that the material used to produce the failed clips had different viscoelastic properties, which produced a greater predisposition for stress relaxation.

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放松尼龙线夹

一批塑料线夹在有限的使用后出现故障。故障的特点是夹子过度松弛，使得相应的电线不再充分固定在零件上。没有遇到灾难性的故障。代表旧批次的部件，表现出令人满意的性能，也可供参考。这些夹被指定用尼龙6/6的抗冲击改性等级注塑成型。然而，零件图上并没有指明具体的树脂。调查包括目视检查、ATR模式下的显微ftir和DSC分析。代表参考部件的光谱显示了相对较高水平的烃类冲击改进剂，而在失效部件上获得的结果显示了丙烯酸基改进剂的存在。此外，参考夹片热像图显示了烃基冲击改进剂的熔化转变。结论是，控制和失败的夹子是由两种截然不同的树脂制成的。结果表明，用于制造失效夹子的材料具有不同的粘弹性，从而更容易产生应力松弛。

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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