Archives du mot-clef failure mechanisms

Analyse de défaillance d’un cas de fatigue thermique sur un laiton moulé

Publié le par
Répondre

Dhouha Melloulia, Nader Haddara, Alain Kösterb, Hassine Ferid Ayedia

a Laboratory of Industrial Chemistry and materials, National Engineering School of Sfax, Box1173, W3038, Sfax, Tunisia
b Centre des matériaux Pierre Marie Fourt, Ecole des Mines de Paris

Abstract

This research has been conducted to elucidate the mechanisms of brass die casting failure. A die was examined and we have evaluated the causes of crack failure mechanisms after use in brass die casting. The dominating failure mechanism in the investigated die was thermal fatigue cracking. Crack initiation is associated to accumulation of the local plastic strain that occurs during each casting cycle. The crack growth is facilitated by a number of elements: oxidation of the cracks’ surfaces, filling of brass and softening of the die material.

Failure analysis of stress corrosion cracking in a gas transmission steel pipeline

Publié le par
Répondre

Engineering Failure Analysis : Failure analysis of stress corrosion cracking occurred in a gas transmission steel pipeline

Abstract

In January 2010, stress corrosion cracking was occurred in a high-pressure gas pipeline steel in northern regions of Iran, after almost 40 years since its installation. In this study, failure mechanisms were determined based on available documents and metallographic studies conducted on this pipeline. The results showed that the applied polyethylene tape coating on the external surface of the pipeline became opened and disbonded in the corroded area causing external surface of buried pipeline to be exposed to wet soil around it. As a result of the chemical interactions and formation of carbonate/bicarbonate solution and with the presence of tensile stresses, stress corrosion cracking occurred in the longitudinal direction and at the outer surface of the pipe. In addition, mechanisms and morphology of cracks propagation due to stress corrosion cracking to internal side of the pipe wall were studied.

Keywords: API 5L X60; Stress corrosion cracking; Pipeline; Intergranular