Partitioning effects during the heat treatment of martensitic stainless steels and its consequences on properties and for practical application

Reinhold Schneider, Simona Kresser, Horst Zunko, Christof Sommitsch

Research output: Chapter in Book/Report/Conference proceedingsConference contributionpeer-review

Abstract

Martensitic stainless steels are an important group of steels for applications as knives, tools & molds and highly loaded parts in the food and plastics processing industry as well as for machinery components. Their typical hardening consists of quenching and (multiple) tempering (Q&T). As many of these steels contain at least smaller amounts of retained austenite (RA) after quenching, partitioning of carbon and nitrogen from the martensite into the RA can take place during tempering, changing it from Q&T to quenching & partitioning (Q&P). This contribution provides as systematic overview of such partitioning effects on the microstructure like the amount and stability of retained austenite as well as on subsequent effects on material properties such as hardness, toughness, strength and ductility. The various effects were investigated on several steel grades and cover also the effect of variation in heat treatment parameters like austenitizing temperature, quench rate, quenching temperature, number, duration and temperature of the tempering, respectively partitioning. The results clearly show that partitioning dominates over tempering effects at temperatures up to 500°C. Higher quenching temperatures can increase the RA-content similar to higher austenitizing temperatures. Lower quench rates can reduce it due to carbide (nitride) precipitation. Rising tempering (partitioning) temperatures up to 400°C enhances the austenite stabilization. Higher amounts of RA with reduced stability promotes transformation induced plasticity (TRIP), providing the possibility to optimized ductility and tensile strength but reduces yield strength. Increased amounts of RA with sufficient stability increases impact toughness at slightly reduced hardness. Increasing the tempering temperature above 500°C in contrast promotes, after a certain nucleation time, carbide and nitride precipitation, resulting in the elimination of the retained austenite and therefore a typical tempering condition.

Original languageEnglish
Title of host publication29th International Federation for Heat Treatment and Surface Engineering World Congress, IFHTSE 2024
PublisherASM International
Pages57-66
Number of pages10
ISBN (Electronic)9798331305475
DOIs
Publication statusPublished - 2024
Event29th International Federation for Heat Treatment and Surface Engineering World Congress, IFHTSE 2024 - Cleveland, United States
Duration: 30 Sept 20243 Oct 2024

Publication series

Name29th International Federation for Heat Treatment and Surface Engineering World Congress, IFHTSE 2024

Conference

Conference29th International Federation for Heat Treatment and Surface Engineering World Congress, IFHTSE 2024
Country/TerritoryUnited States
CityCleveland
Period30.09.202403.10.2024

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