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SEDL / STP / STP678-EB
This publication provides guidelines for choosing a particular test technique. 14 papers provide a basis for future experiments to establish parameters for determination of accurate values of toughness and crack velocity.
Table of Contents
Introduction
Freiman S.
Summary
Freiman S.
An Evaluation of Double-Torsion Testing—Analysis
Fuller E.
An Evaluation of Double-Torsion Testing—Experimental
Fuller E., Koepke B., Pletka B.
Fracture Surface Energy Measurements by the Notch-Beam Technique
Bansal G., Duckworth W.
Influence of Loading System on Crack Propagation and Arrest Behavior in a Double-Cantilever Beam Specimen
Fourney W., Kobayashi T.
Crack Propagation Measurements on Glass: A Comparison Between Double Torsion and Double Cantilever Beam Specimens
Champomier F.
Short Bar Specimens for KIc Measurements
Barker L.
Fracture from Controlled Surface Flaws
Mendiratta M., Petrovic J.
Use of Indentation Fracture to Determine Fracture Toughness
Marion R.
Fracture Toughness: The Role of Indentation Techniques
Evans A.
Determination of Fracture Mechanics Parameters Through Fractographic Analysis of Ceramics
Freiman S., Mecholsky J.
Fracture Toughness Testing of Alumina
Buresch F.
KIc and JIc of Westerly Granite—Effects of Thickness and In-Plane Dimensions
Lutz T., Schmidt R.
Fracture and Multiple Cracking of Cementitious Composites
Naaman A., Shah S.
Application of Fracture Mechanics Concepts to Structural Ceramics
Ritter J., Wiederhorn S.
Index
Committee: E08
Paper ID: STP678-EB
DOI: 10.1520/STP678-EB
ISBN-EB: 978-0-8031-4747-8
 ASTM International is a member of CrossRef.
0-8031-0365-4
978-0-8031-0365-8
STP678-EB
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