Ultra-high-cycle fatigue properties and fracture mechanism of modified 2.25Cr-1Mo steel at elevated temperatures

International Journal of Fatigue

Volumn 28, Issue 11, 2006, Pages 1633-1639

  Kobayashi, Hideo ^a   Todoroki, Akira ^a   Oomura, Toshikazu ^a   Sano, Takeru ^b   Takehana, Tatsumi ^b  

^a TOKYO INSTITUTE OF TECHNOLOGY   (Japan)

^b High Pressure Gas Safety Institute of Japan   (Japan)

Author keywords

Crack growth life; Fatigue; Fatigue properties; Fracture mechanism; Life prediction; Modified 2.25Cr 1Mo steel

Indexed keywords

CHEMICAL PLANTS; FAILURE ANALYSIS; FATIGUE OF MATERIALS; FRACTURE; FRACTURE MECHANICS;

CRACK GROWTH LIFE; FRACTURE MECHANISM; LIFE PREDICTION; MODIFIED 2.25CR-1MO STEEL;

STEEL;

EID: 33746343028     PISSN: 01421123     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijfatigue.2005.08.016     Document Type: Article

References (5)

1. The Research Subcommittee on high cycle fatigue RC130 research report, Japan Society of Mechanical Engineers, Research Cooperation Committee, 1996.
2. High cycle fatigue evaluation research of the structural materials for nuclear components. The last report in the 2001 fiscal year, Japan Welding Engineering Society, Nuclear Research Committee GCF Subcommittee, 2003.
3. Ochi Y., and Sakai T. Fundamentals and recent topics on fatigue III: fatigue of metallic materials in the very high cycle regime. J Soc Mater Sci 52 4 (2003) 433-439
4. Murakami Y. Metal fatigue: effects of small defects and nonmetallic inclusions (1993), Yokendo Ltd.
5. Kobayashi H. Fracture mechanics (1993), Kyoritsu Shuppan Co., Ltd. p. 143