Multiscale modeling to clarify the relationship between microstructures of steel and macroscopic brittle crack propagation/arrest behavior-Reference-Cited by-同舟云学术

Multiscale modeling to clarify the relationship between microstructures of steel and macroscopic brittle crack propagation/arrest behavior

Published:2016 Issue: Volume:2 Page:2389-2396
ISSN:2452-3216
Container-title:Procedia Structural Integrity
language:en
Short-container-title:Procedia Structural Integrity

Author:

Yamamoto Yuki,Shibanuma Kazuki,Yanagimoto Fuminori,Suzuki Katsuyuki,Aihara Shuji,Shirahata Hiroyuki

Publisher

Elsevier BV

Subject

General Engineering,Energy Engineering and Power Technology

Reference14 articles.

1. Ohmori Y., Iwanaga H., Kawaguchi Y.and Terasaki F., 1976. Brittle Fracture Initiation and Propagation-Arrest Characteristics in Ferritic-Pearlitic Steels, Tetsu-to Hagané, 62, 1017-1024, in Japanese.

2. Shirahata H., Okawa T., Nakashima K., Yanagita K., Inoue T., Inami A., Ishida K., Minagawa M. and Funatsu Y., 2014. YP 460 Class Heavy Thick Plate with Excellent Brittle Crack Arrestability for Mega Container Ships, Nippon Steel & Sumitomo Metal Technical Report, 400, 26-30, in Japanese.

3. Handa T., Tagawa T. and Minami F., 2012. Correlation between Charpy Transition Temperature and Brittle Crack Arrest Temperature Considering Texture, Tetsu-to Hagané, 98, 32-38, in Japanese.

4. Handa T., Igi S., Endo S., Tsuyama S., Tagawa T. and Minami F., 2012. Mechanism of Brittle Crack Arrest Toughness Improvement Due to Texture, Tetsu-to Hagané, 98, 548-557, in Japanese.

5. Tsuyama S., Takeuchi Y., Nishimura K. and Handa T., 2012. Mechanism of Brittle Crack Arrest Toughness Improvement Due to Texture, Quarterly Journal of The Japan Welding Society, 30, 188-195, in Japanese.

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