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SEDL / STP / STP844-EB
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STP844
Methods for Assessing the Structural Reliability of Brittle Materials
Freiman SW, Michael Hudson C
Pages: 238
Published: 1984
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Summarizes current knowledge on the use of fracture mechanics data in designing with brittle materials. 12 papers describe the analysis and testing of brittle materials and the application of analytical and test results to actual structures. The structural reliability of glasses and ceramics is specifically address.
Table of Contents
Introduction
Freiman S., Michael Hudson C.
Summary
Freiman S., Michael Hudson C.
Failure from Contact-Induced Surface Flaws
Marshall D.
Controlled Indentation Flaws for Construction of Toughness and Fatigue Master Maps
Cook R., Lawn B.
Fatigue Properties of Ceramics with Natural and Controlled Flaws: A Study on Alumina
Cook R., Freiman S., Gonzalez A., Lawn B., Multhopp H.
Statistical Analysis of Size and Stress State Effects on the Strength of an Alumina Ceramic
Duckworth W., Rosenfield A., Shetty D.
Dynamic and Static Fatigue of a Machinable Glass Ceramic
Forrest K., Heslin T., Magida M.
Effect of Multiregion Crack Growth on Proof Testing
Freiman S., Fuller E., Richter H., Wiederhorn S.
Fracture Mechanics Analysis of Defect Sizes
Trantina G.
Effect of Temperature and Humidity on Delayed Failure of Optical Glass Fibers
Babinski R., Jakus K., Ritter J.
Subthreshold Indentation Flaws in the Study of Fatigue Properties of Ultrahigh-Strength Glass
Dabbs T., Fairbanks C., Lawn B.
Lifetime Prediction for Hot-Pressed Silicon Nitride at High Temperatures
Fett T., Munz D.
Static Fatigue in High-Performance Ceramics
Quinn G.
Requirements for Flexure Testing of Brittle Materials
Baratta F.
Index
Committee: E08
Paper ID: STP844-EB
DOI: 10.1520/STP844-EB
ISBN-EB: 978-0-8031-4910-6
 ASTM International is a member of CrossRef.
0-8031-0265-8
978-0-8031-0265-1
STP844-EB
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