Effect of heterogeneities on pitting potential of line pipe steels: An adaptive neuro-fuzzy approach

Roy, Nilima and Bhardwaj, A and Kujur, A and Ghosh, M and Singh, R and Meena, L K and Das, Goutam and Chattoraj, I (2018) Effect of heterogeneities on pitting potential of line pipe steels: An adaptive neuro-fuzzy approach. Corrosion science, 133 (IF-5.245). pp. 327-335.

[img]PDF
Restricted to NML users only. Others may use ->

3416Kb

Abstract

The variations in microstructure of line pipe steel (Grade X60) lead to significant changes in its corrosion behavior. Use of any particular steel for a given environment needs a robust data bank through which life predictions of components can be made confidently to avoid catastrophic failure. In the present endeavor, an adaptive neuro fuzzy based model is proposed to study the effect of microstructural variation on the performance of the candidate steel. This model has been verified with the experimental findings. The developed model will be a useful tool to justify the acceptance/rejection of the alloy on a commercial scale.

Item Type:Article
Official URL/DOI:http://10.1016/j.corsci.2018.01.039
Uncontrolled Keywords:Steel; Polarization; SEM; Modelling studies; Pitting Corrosion; Inclusion,Wind turbine; corrosion-resistance; inference system; network; environments; inclusions; strategy; carbon; anfis
Divisions:Metal Extraction and Forming
ID Code:7826
Deposited By:Sahu A K
Deposited On:22 Jun 2018 17:22
Last Modified:24 Jul 2018 15:15
Related URLs:

Repository Staff Only: item control page