Fracture analysis of defect Chlorinated Poly Vinyl Chloride pipes based on burst pressure and prediction their fraction of life

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frattura ed Integrita Strutturale Pub Date : 2023-03-21 DOI:10.3221/igf-esis.64.14

Fatima Gugouch, Achraf Wahid, Y. Bassir, M. Elghorba

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引用次数: 2

Abstract

Most Chlorinated Poly Vinyl Chloride (CPVC) resins contain 63-69 % chlorine, in particular those used for the extrusion of plumbing tubes, due to this chlorination of basic PVC, CPVC offers a mixture of corrosion resistance and low installation costs for its main applications requiring service in non-ambient conditions. CPVC replaces copper owing to its economic gain and by virtue of its pressure resistance characteristics. In this article, we have been interested in fracture analysis and damage modeling of CPVC tubes by subject CPVC samples to burst pressure tests. We performed a set of burst tests on virgin and artificially damaged CPVC pipe at different notch lengths, then submitted the specimens to burst pressure tests, in addition to recording the pressure and time during these tests for use in conducting the study. The results of the burst tests were exploited to estimate the damage and reliability of the material, these two parameters allow us to follow the degradation of the pipes used; subsequently, we determined a new relationship between these two parameters through the fraction life. This makes it possible to predict the moment of damage acceleration and to intervene at the right time for engaging predictive maintenance.

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基于破裂压力的缺陷氯化聚氯乙烯管断裂分析及寿命预测

大多数氯化聚氯乙烯(CPVC)树脂含有63- 69%的氯，特别是那些用于管道挤压的树脂，由于基本PVC的氯化，CPVC提供了耐腐蚀性和低安装成本的混合物，其主要应用需要在非环境条件下使用。CPVC以其经济效益和耐压特性取代了铜。在本文中，我们对CPVC管的断裂分析和损伤建模感兴趣，通过CPVC样品进行破裂压力试验。在不同缺口长度的CPVC管道上分别进行了原始和人工损坏CPVC管道的爆破试验，并将试样提交进行了爆破压力试验，并记录了试验过程中的压力和时间，以供研究使用。利用爆炸试验的结果来估计材料的损坏和可靠性，这两个参数使我们能够跟踪所用管道的退化;随后，我们通过分数寿命确定了这两个参数之间的新关系。这使得预测损坏加速的时刻成为可能，并在适当的时间进行干预，进行预测性维护。

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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