Details
Title
Finite Element modeling of material fatigue and cracking problems for steam power system HP devices exposed to thermal shocksJournal title
Archive of Mechanical EngineeringYearbook
2016Volume
vol. 63Numer
No 3Authors
Keywords
thermal shock ; low cycle fatigue ; crack growth under thermal shocks ; adaptation to thermal shocks ; leak but not burstDivisions of PAS
Nauki TechniczneCoverage
413-434Publisher
Polish Academy of Sciences, Committee on Machine BuildingDate
2016.09.18Type
Artykuły / ArticlesIdentifier
ISSN 0004-0738, e-ISSN 2300-1895References
Lu (1998), The thermal shock resistance of solids The thermal shock resistance of solidsActa materialia, Acta materialia, 46, 13. ; Aliabadi (1991), Numerical fracture mechanics , volume Media Numerical fracture mechanics Media, Science Business Science Business. ; Wunderlich (2012), Thermal cyclic fatigue analysis of three aluminum piston alloys of Material and Mechanical Engineering Thermal cyclic fatigue analysis of three aluminum piston alloysInternational Journal of Material and Mechanical Engineering, International Journal, 16, 1. ; Szmytka (2015), Thermal fatigue analysis of automotive diesel piston : Experimental procedure and numerical protocol of Thermal fatigue analysis of automotive diesel piston : Experimental procedure and numerical protocolInternational Journal of Fatigue, International Journal Fatigue, 14, 48.DOI
10.1515/meceng-2016-0024