Extended investigation of the test specimen thickness (TST) effect on the fracture toughness (Jc) of a material in the ductile-to-brittle transition temperature region as a difference in the crack tip constraint − What is the loss of constraint in the TST effects on Jc?-Reference-Cited by-同舟云学术

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Extended investigation of the test specimen thickness (TST) effect on the fracture toughness (Jc) of a material in the ductile-to-brittle transition temperature region as a difference in the crack tip constraint − What is the loss of constraint in the TST effects on Jc?

Published:2015-02 Issue: Volume:135 Page:286-294
ISSN:0013-7944
Container-title:Engineering Fracture Mechanics
language:en
Short-container-title:Engineering Fracture Mechanics

Author:

Meshii Toshiyuki,Lu Kai,Fujiwara Yuki

Funder

JSPS KAKENHI

Publisher

Elsevier BV

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Reference42 articles.

1. A failure criterion to explain the test specimen thickness effect on fracture toughness in the transition temperature region;Meshii;Eng Fract Mech,2013

2. Coupling of the Weibull stress model and macroscale models to predict cleavage fracture;Petti;Eng Fract Mech,2004

3. A framework to correlate a/W ratio effects on elastic–plastic fracture toughness (Jc);Dodds;Int J Fract,1991

4. Kirk MT, Koppenhoefer KC, Shih CF. Effect of constraint on specimen dimensions needed to obtain structurally relevant toughness measures. In: Hackett EM, editor. STP 1171, Constraint effects in fracture, American Society for Testing and Materials; 1993. p. 79–103.

5. Sumpter JDG. An experimental investigation of the T-stress approach. In: Hackett EM, editor. STP 1171, Constraint effects in fracture, American Society for Testing and Materials; 1993. p. 495–502.

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4. Applicability of compact tension specimens for evaluation of the plane-strain fracture toughness of steel;Materials Testing;2019-12-02

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