Relationship between tensile properties and microscopically ductile plane strain fracture toughness

Sailors, R. H.

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https://hdl.handle.net/2142/112096 Copy

Description

Title

Relationship between tensile properties and microscopically ductile plane strain fracture toughness

Author(s)

Sailors, R. H.

Issue Date

1973

Keyword(s)

• Tensile Properties
• Strain
• Fracture Toughness

Abstract

An attempt has been made to derive an expression that will permit plane strain fracture toughness, KIC, to be calculated from a knowledge of uniaxial tensile properties. Extensive analytical analyses of near crack tip behavior had been performed for plane stress rigid plastic material behavior but not for plane strain work hardening material behavior. Thus, the results of the plane stress rigid plastic behavior were corrected for constraint and strain hardening and found to accurately describe experimental crack opening displacement, δ, on steels having yield strengths from 36 to 161 ksi. The crack opening displacement imposed strain distribution at fracture was investigated by measuring fracture ductility for the biaxial stress state, which exists at the blunted crack tip, and the triaxial stress state, which exists ahead of the crack tip. The results of ductility tests appear to be compatible with a 1/r strain distribution within a region 2δ ahead of the crack tip. Plane strain fracture toughness was measured in three low alloy steels, whose yield strength ranged from 41 to 161 ksi, by the recent J-integral technique. From tests on specimens having various crack lengths, a relative size requirement for plane strain behavior, thickness/uncracked ligament greater than two, was determined. The plane strain value of J, JIC, was checked against, and found to agree with, GIC determined by linear elastic fracture mechanics for two of the three steels investigated. The crack tip was modeled following a recent slip line field characterization of near tip deformation. From the results of plane strain crack opening displacement, crack tip strain distribution, and known fracture toughness values, a length parameter was identified which was shown to be proportional to mean free ferrite path. For the steels investigated, the following expression accurately described fracture toughness, KIC.

Publisher

Department of Theoretical and Applied Mechanics. College of Engineering. University of Illinois at Urbana-Champaign

Series/Report Name or Number

• TAM R 367
• 1973-6002

ISSN

0073-5264

Type of Resource

text

Language

eng

Permalink

http://hdl.handle.net/2142/112096

Sponsor(s)/Grant Number(s)

Caterpillar Tractor Company, Peoria, IL, 73/

Copyright and License Information

Copyright 1973 Board of Trustees of the University of Illinois

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