Tribocorrosion Behavior of Medium-Entropy Super Austenitic Stainless Steel in Acidic Environments
Journal
Lubricants
Journal Volume
13
Journal Issue
3
Start Page
125
ISSN
2075-4442
Date Issued
2025-03
Author(s)
Chia-Chi Liu
Shih-Yen Huang
Yu-Ren Chu
Tzu-Hsien Yang
Peng-Wei Chu
Abstract
Although extensive studies have examined the tribocorrosion behavior of stainless steels, the performance of medium-entropy austenitic super stainless steels (MEASS) under severe combined corrosion and mechanical wear conditions has not been fully established. This study systematically compares the tribocorrosion behavior of a newly developed MEASS with conventional S31254 super austenitic stainless steel (SASS) in a 1 M H2SO4 solution, aiming to explore innovative material designs for enhanced performance under these demanding conditions. Electrochemical tests were conducted under both open-circuit potential (OCP) and cathodic potential, with and without sliding wear, to assess the corrosion, wear, and synergistic effects influencing the tribocorrosion performance. Worn surface morphologies and hardness were analyzed using scanning electron microscopy (SEM), transmission electron microscopy (TEM), and hardness measurements, respectively. The experimental results revealed that MEASS exhibits a superior repassivation capability compared to S31254, with a 34.3% lower total material loss after 24 h of tribocorrosion test, primarily attributed to enhanced strain hardening and improved wear resistance. These findings emphasize the strong potential of MEASS for use in corrosive environments, particularly in chemical processing industries, where high resistance to wear and corrosion is critically required.
Subjects
medium-entropy austenitic super stainless steel
potentiodynamic polarization curve
strain hardening
tribocorrosion
SDGs
Publisher
MDPI AG
Type
journal article