A Modified Exponential Model for Predicting the Fatigue Crack Growth Rate in a Pipeline Steel Under Pure Bending

Authors

Sergei Sherbakov, Joint Institute of Mechanical Engineering of the National Academy of Sciences of Belarus
Pawan Kumar, Joint Institute of Mechanical Engineering of the National Academy of Sciences of Belarus
Daria Podgayskaya, Joint Institute of Mechanical Engineering of the National Academy of Sciences of Belarus
Pavel Poliakov, Moscow Aviation Institute (National Research University)

Document Type

Article

Publication Title

Advances in Technology Innovation

Abstract

The present work proposes a fatigue crack growth rate (FCGR) model for steel pipelines subjected to sinusoidal loading using a modified exponential function. The modification in the exponential function is made for the non-dimensional parameter using the stress intensity range (ΔK) as the crack driving force. The acceptable values of ΔK for FCGR in stage-I ranged between 17.45-20.46 MPa√m, between 20.46-21.41 MPa√m for stage-II, and between 21.41-21.98 MPa√m for stage-III. A new correlation is also developed between the specific growth rate and the non-dimensional number. The modified exponential function predicted the FCGR within the acceptable values for all three stages in the radial direction. It shows the best performance for stage-I of FCGR and the lowest for stage-III. The microstructure envisages shallowed microvoids, while the striations and secondary cracks are mostly perpendicular to the FCG direction.

First Page

238

Last Page

253

DOI

10.46604/aiti.2024.14372

Publication Date

6-27-2025

Recommended Citation

Sherbakov, Sergei; Kumar, Pawan; Podgayskaya, Daria; and Poliakov, Pavel, "A Modified Exponential Model for Predicting the Fatigue Crack Growth Rate in a Pipeline Steel Under Pure Bending" (2025). Open Access archive. 13071.
https://impressions.manipal.edu/open-access-archive/13071