降级(电信)
芳纶
极限抗拉强度
水解
海底管道
材料科学
系泊
复合材料
海水
使用寿命
环境科学
海洋工程
化学
工程类
岩土工程
地质学
有机化学
海洋学
电信
纤维
作者
Juliano Picanço Duarte,Carlos Eduardo Marcos Guilherme,Antonio Henrique Monteiro Fonseca Thomé da Silva,Adriano Câmara Mendonça,Felipe Tempel Stumpf
标识
DOI:10.1177/0967391119851386
摘要
The discovery of oil fields in deepwater over the last decades led the oil and gas industry to the necessity of replacing the steel wire cables of the mooring systems of offshore platforms by polymeric ropes. These systems must be designed to work for at least 20 years without showing substantial loss in tensile strength or in their mechanical behavior along this period. However, some polymers present degradation by seawater through the process of hydrolysis, and the question whether it affects significantly the materials’ ultimate tensile strength arises. Accelerated hydrolysis tests were conducted in yarn samples of aramid at high temperature in order to use the Arrhenius correlation to predict their lifetime under service conditions. In order to decouple the total degradation into a thermal and a purely hydrolytic part, separate aging experiments were performed into a dry chamber and the conclusion was that thermal degradation does not play a significant role in the total degradation of aramid due to the water submersion at the temperatures tested.
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