Publication detail
Correlation between Dislocation Structures and Mechanical Fatigue Response of 316L Austenitic Steel Loaded with and without Mean Stress at High Temperature in Air and Water Environment
HECZKO, M. SPAETIG, P. SEIFERT, H. KRUML, T.
English title
Correlation between Dislocation Structures and Mechanical Fatigue Response of 316L Austenitic Steel Loaded with and without Mean Stress at High Temperature in Air and Water Environment
Type
journal article in Scopus
Language
en
Original abstract
Load-controlled experiments were conducted to study the influence of mean stress on the fatigue behavior of 316L austenitic stainless steel at the temperature of 288°C in air and light water reactor (LWR) conditions. Water environment was characterized by high-purity, neutral water with 150 ppb dissolved hydrogen. The internal dislocation structures of the material were investigated by means of transmission electron microscopy (TEM). The formation of dislocation structures for different loading conditions and different mean stresses was assessed and discussed in relation to the cyclic stress-strain response of the material as well as the effects of non-zero mean stress conditions. All findings were considered to discuss the fatigue softening/hardening behavior and the influence of mean stress on the fatigue life of material in the LWR environment.
English abstract
Load-controlled experiments were conducted to study the influence of mean stress on the fatigue behavior of 316L austenitic stainless steel at the temperature of 288°C in air and light water reactor (LWR) conditions. Water environment was characterized by high-purity, neutral water with 150 ppb dissolved hydrogen. The internal dislocation structures of the material were investigated by means of transmission electron microscopy (TEM). The formation of dislocation structures for different loading conditions and different mean stresses was assessed and discussed in relation to the cyclic stress-strain response of the material as well as the effects of non-zero mean stress conditions. All findings were considered to discuss the fatigue softening/hardening behavior and the influence of mean stress on the fatigue life of material in the LWR environment.
Keywords in English
Dislocation Structure, Air Environment, Load-Controlled Fatigue, Mean-Stress, Light Water Reactor Environment , Corduroy Structure
Released
08.12.2016
Publisher
Trans Tech Publications
Location
Switzerland
ISSN
1662-9779
Volume
258
Number
1
Pages from–to
534–537
Pages count
4
BIBTEX
@article{BUT128532,
author="Milan {Heczko} and Philippe {Spaetig} and Hans-Peter {Seifert} and Tomáš {Kruml},
title="Correlation between Dislocation Structures and Mechanical Fatigue Response of 316L Austenitic Steel Loaded with and without Mean Stress at High Temperature in Air and Water Environment",
year="2016",
volume="258",
number="1",
month="December",
pages="534--537",
publisher="Trans Tech Publications",
address="Switzerland",
issn="1662-9779"
}