Experimental Application of Methodologies to Quantify the Effect of Constraint on Jc for a 3-D Flaw Geometry

Abstract

In an effort to validate methodologies to quantify the effect of crack tip constraint on cleavage fracture toughness, a series of experiments were conducted to measure the cleavage fracture toughness, Jc, of an ASTM A515 Grade 70 steel utilizing large plate bend specimens containing semi-elliptical surface cracks, SC(B), (3-D flaw geometry). Jc was estimated with modified EPRI and Turner design curve schemes from load and remote strains measured at initiation. The cleavage toughness of the A515 steel used for this testing was previously characterized using a series of through-cracked single edge notch bend specimens, SE(B), (2-D flaw geometry) with various initial crack-length to specimen-width ratios, a/W. The toughness values measured for the surface cracked plate specimens were consistent with the toughness ranges predicted from the SE(B) results using the toughness scaling and two parameter fracture mechanics (J-Q) methodologies to account for differences in crack tip constraint. This result verifies the applicability of small specimen, constraint adjusted, results to engineering structural integrity prediction for the case of cleavage fracture.

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 1994

Accession Number

ADA285309

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