TITLE:
Failure Analysis of Transverse Cracks in API 5L X70M Pipes
AUTHORS:
Ashok Kumar, Kuldeep Sharma, Vineet Yadav, Dipak K. Banerjee, Randy Marvel
KEYWORDS:
API (American Petroleum Institute), SAW, Transverse Crack, Microstructural Defects, Ultrasonic Testing, Radiography, EDS, SEM
JOURNAL NAME:
Open Journal of Applied Sciences,
Vol.15 No.5,
May
19,
2025
ABSTRACT: This study explores the critical failure mechanisms in API 5L X70M pipeline steel, focusing on the development of transverse cracks that compromise pipeline integrity. API 5L X70M, widely used in high-pressure oil and gas pipelines, is favored for its high strength and toughness. However, transverse cracking poses a serious risk to the safe operation of pipelines, potentially leading to catastrophic failures. Understanding the origin and propagation of these cracks is essential for ensuring the reliability and longevity of pipelines in challenging environments. In this investigation, a comprehensive failure analysis was conducted using non-destructive testing (NDT), metallographic examination, mechanical property assessment, and fracture surface analysis via scanning electron microscopy (SEM). The findings indicate that transverse cracks initiate due to residual stresses from the manufacturing process, environmental influences, and cyclic loading conditions. Microstructural defects, including inclusions and weakened grain boundaries, were identified as key sites for crack initiation. Additionally, mechanisms such as hydrogen-induced cracking (HIC) and stress corrosion cracking (SCC) were found to contribute to crack propagation. Additionally, mechanisms such as hydrogen-induced cracking (HIC) and stress corrosion cracking (SCC) were observed to contribute to crack propagation in specific environmental conditions, as evidenced by SEM and EDS analyses showing hydrogen-related embrittlement and corrosion products, though their precise roles require further investigation. This study underscores the importance of early detection and mitigation strategies, including enhanced manufacturing controls and operational monitoring, to prevent transverse crack formation and ensure pipeline safety in critical applications.