Fatigue Damage Accumulation Modeling of Metals Alloys under High Amplitude Loading at Elevated Temperatures

• Published in: Metals (Basel ) Vol. 8; no. 12; p. 1030
• Main Authors: Szusta, Jarosław, Seweryn, Andrzej
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.12.2018
• Subjects: Aluminum base alloys; Amplitudes; Crack initiation; Crack propagation; Damage accumulation; elevated temperature; Fatigue failure; Fatigue life; High temperature; Load history; Low cycle fatigue; Metal fatigue; Modelling; Nuclear power plants; Plastic deformation; State variable; Steel alloys; Temperature; Tensile stress; Titanium alloys; uniaxial and multiaxial loading
• ISSN: 2075-4701; 2075-4701
• DOI: 10.3390/met8121030

This article presents an approach related to the modeling of the fatigue life of constructional metal alloys working under elevated temperature conditions and in the high-amplitude load range. The article reviews the fatigue damage accumulation criteria that makes it possible to determine the number of loading cycles until damage occurs. Results of experimental tests conducted on various technical metal alloys made it possible to develop a fatigue damage accumulation model for the LCF (Low Cycle Fatigue) range. In modeling, the material’s damage state variable was defined, and the damage accumulation law was formulated incrementally so as to enable the analysis of the influence of loading history on the material’s fatigue life. In the proposed model, the increment of the damage state variable was made dependent on the increment of plastic strain, on the tensile stress value in the sample, and also on the actual value of the damage state variable. The model was verified on the basis of data obtained from experiments in the field of uniaxial and multiaxial loads. Samples made of EN AW 2024T3 aluminum alloy were used for this purpose.