SEDL / STP / STP821-EB

STP821 Environment-Sensitive Fracture: Evaluation and Comparison of Test Methods Dean SW, Pugh EN, Ugiansky GM Pages: 562 Published: 1984 PDF (9.9M): $65 Print: $65 Print + PDF: $97.50 Save 25%!

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Table of Contents

Introduction
Dean S., Pugh E., Ugiansky G.

Summary
Dean S., Pugh E., Ugiansky G.

A Critical Evaluation of Current Environment-Sensitive Fracture Test Methods
Parkins R.

Current Understanding of the Mechanisms of Stress Corrosion and Corrosion Fatigue
Ford F.

Application of Laboratory Test Data to Engineering Design
Simenz R., Pengra J., Langenbeck S.

Interlaboratory Evaluation of K^Iscc Measurement Procedures for Steels: A Summary
Wei R., Novak S.

Influence of Precracked Specimen Configuration and Starting Stress Intensity on the Stress Corrosion Cracking of 4340 Steel
Lisagor W.

Stress Corrosion Evaluation of Titanium Alloys Using Ductile Fracture Mechanics Technology
Anderson D., Gudas J.

Loading Mode (Mode I/Mode III) Testing for Stress Corrosion Cracking
Thompson A., Bernstein I.

Studies of Stress Corrosion Crack Growth in Al-Zn-Mg Alloys by the Double Torsion Method
Bond T., Yeske R., Pugh E.

A Fracture Mechanics Model for Iodine Stress Corrosion Crack Propagation in Zircaloy Tubing
Crescimanno P., Campbell W., Goldberg I.

Utilizing Various Test Methods to Study the Stress Corrosion Behavior of Al-Li-Cu Alloys
Pizzo P., Galvin R., Nelson H.

Slow-Strain-Rate Stress Corrosion Testing of Aluminum Alloys
Holrody N., Scamans G.

Slow-Strain-Rate Testing of Al 7075-T6 in Controlled Atmospheres
Khobaib M., Lynch C.

Evaluating the Intergranular SCC Resistance of Sensitized Type 304 Stainless Steel in Low-Temperature Water Environments
Bruemmer S., Jones R., Divine J., Johnson A.

Effect of Material and Environmental Variables on SCC Initiation in Slow-Strain-Rate Tests on Type 304 Stainless Steel
Andresen P.

Discussion


Application of Slow-Strain-Rate Tests to Defining the Stress for Stress Corrosion Crack Initiation in 70/30 Brass
Yu J., Henry Holroyd N., Parkins R.

Evaluation of SCC Test Methods for Inconel 600 in Low-Temperature Aqueous Solutions
Newman R., Roberge R., Bandy R.

An Evaluation of Environment-Enhanced Fatigue Crack Growth Rate Testing as an Accelerated Static Load Corrosion Test
Shih T., Clark W.

Experimental Methods for the Evaluation of Environmentally Assisted Cracking of Steel in Caustic
Rungta R., Leis B.

Threshold-Stress Determination Using Tapered Specimens and Cyclic Stresses
Fessler R., Barlo T.

Effect of Sequential Load or Potential Changes on Stress Corrosion Cracking Behavior of Steels
Fujii C.

Use of a Load-Pulsing Technique to Determine Stress Corrosion Crack Velocity
Slattery P., Smit J., Pugh E.

Development of a Navy Standard Test Method for Fatigue Crack Growth Rates in Marine Environments
Crooker T., Gill S., Yoder G., Bogar F.

Automated Corrosion Fatigue Crack Growth Testing in Pressurized Water Environments
Ceschini L., Liaw P., Rudd G., Logsdon W.

Use of a Constant ΔK Test Method in the Investigation of Fatigue Crack Growth in 288°C Water Environments
Van Der Sluys W., DeMiglio D.

Computer-Controlled Fatigue Crack Growth Rate Testing on Bend Bars in a Corrosive Environment
Fabis T., Liaw P., Ceschini L., Leax T., Landes J.

A Low-Cost Microcomputer Data Acquisition System for Fatigue Crack Growth Testing
Tipton D.

Application of Ultrasonic Fatigue Testing Techniques to the Evaluation of the Corrosion-Fatigue Strength of Materials
Roth L., Willertz L.

Effect of Water Vapor on Fatigue Crack Growth in 7475-T651 Aluminum Alloy Plate
Dicus D.

Corrosion Fatigue of 7000 Series Aluminum Alloys
Henry Holroyd N., Hardie D.

Index


Committee: G01
Paper ID: STP821-EB
DOI: 10.1520/STP821-EB
ISBN-EB: 978-0-8031-4894-9

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0-8031-0264-X
978-0-8031-0264-4
STP821-EB

STP 821