An Energy-Based Crack Extension Formulation for Crack Resistance Characterization of Ductile Materials

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Volume 32, Issue 6 (November 2004)

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ISSN: 0090-3973
Published Online: 21 October 2004
Page Count: 7

An Energy-Based Crack Extension Formulation for Crack Resistance Characterization of Ductile Materials
Chaouadi, R

(Received 19 May 2003; accepted 9 June 2004)

Abstract

Crack resistance behavior is an important property for reactor pressure vessel embrittlement evaluation as reactors operate in the upper shelf ductile regime. This property consists in evaluating the change of crack length with the applied loading expressed in terms of the J-integral. While J-integral formulation is available for standard geometries and it is relatively easy to determine, crack extension is either measured directly on the fracture surface of a number of specimens or estimated from one single specimen, necessitating sophisticated instrumentation. Based on a number of experimental observations, a simple procedure is presented which is based solely on the load-displacement test record and the initial and final crack length to determine the full crack resistance curve. The reliability of this new procedure for determining the crack resistance, the initiation toughness, and the tearing resistance is illustrated by several examples covering a wide range of materials and cracked specimen configurations.

Keywords:
crack resistance, J-R curve, unloading compliance, single specimen, normalization, ductile crack extension

Paper ID: JTE11956
DOI: 10.1520/JTE11956
ASTM International is a member of CrossRef.

Author Title An Energy-Based Crack Extension Formulation for Crack Resistance Characterization of Ductile Materials Symposium , 0000-00-00 Committee E08

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of Testing and Evaluation (JTE) / Citation Page Volume 32, Issue 6 (November 2004) Click here to download this paper now for $25 PDF (504K) View License Agreement ISSN: 0090-3973 Published Online: 21 October 2004 Page Count: 7 An Energy-Based Crack Extension Formulation for Crack Resistance Characterization of Ductile Materials Chaouadi, R (Received 19 May 2003; accepted 9 June 2004) Abstract Crack resistance behavior is an important property for reactor pressure vessel embrittlement evaluation as reactors operate in the upper shelf ductile regime. This property consists in evaluating the change of crack length with the applied loading expressed in terms of the J-integral. While J-integral formulation is available for standard geometries and it is relatively easy to determine, crack extension is either measured directly on the fracture surface of a number of specimens or estimated from one single specimen, necessitating sophisticated instrumentation. Based on a number of experimental observations, a simple procedure is presented which is based solely on the load-displacement test record and the initial and final crack length to determine the full crack resistance curve. The reliability of this new procedure for determining the crack resistance, the initiation toughness, and the tearing resistance is illustrated by several examples covering a wide range of materials and cracked specimen configurations. Keywords: crack resistance, J-R curve, unloading compliance, single specimen, normalization, ductile crack extension Paper ID: JTE11956 DOI: 10.1520/JTE11956 ASTM International is a member of CrossRef. Author Title An Energy-Based Crack Extension Formulation for Crack Resistance Characterization of Ductile Materials Symposium , 0000-00-00 Committee E08