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Using Automated J-R Curve Analysis Software to Simplify Testing and Save Time...

by Alberto Esteban Linares, Logan N Clowers, Xiang Chen, Mikhail A Sokolov, Randy K Nanstad
Publication Type
Journal
Journal Name
Advanced Materials and Processes
Publication Date
Page Numbers
27 to 30
Volume
177
Issue
2

The J-integral versus crack-growth resistance curve (J-R curve) is a useful tool for evaluating material fracture toughness in the ductile region [1]. A widely accepted practice for conducting J-R curve testing is ASTM standard E1820 [2], which introduces the normalization method. This method does not require compliance measurements during testing, significantly simplifying J-R curve testing compared with the conventional elastic unloading compliance (EUC) method. Despite the advantage in testing, analysis procedures for the normalization method are very complicated. Also, there is no open source software currently available to perform such analysis.

The authors developed an open source automated J-R curve-analysis software based on the normalization method in ASTM E1820-18. Source codes were written in MATLAB and the compiled software, in the form of a stand-alone executable, has a user-friendly graphic interface and is readily compatible with modern Windows operating systems. Both source codes and the compiled executable file are available for download at https://code.ornl.gov/xc8/ANJR.git. Comparisons between resulting J-R curves from the software and manual analysis procedures show essentially identical results, indicating the suitability of applying the automated software for J-R curve analysis.