Menu
Search
Filters
Close
Menu

02511 Stress Corrosion Crack Growth Rate Behavior of Various Grades of Cold Worked Stainless Steel in High Temperature Water

Picture for 02511 Stress Corrosion Crack Growth Rate...
Available for download
Product Number: 51300-02511-SG
ISBN: 02511 2002 CP
Author: Peter L. Andresen, Lisa M. Young, William R. Catlin, and Ron M. Horn
$0.00
$20.00
$20.00
The influence of yield strength on stress corrosion cracking in stainless steel is important because of surface cold work, bulk cold work, weld shrinkage strain, and irradiation hardening. To this end, stress corrosion crack growth rate measurements were performed in high temperature, ultra high purity water on unsensitized stainless steels (and alloy 600) of various grades and compositions as a function of heat, yield strength (cold work), martensite content, corrosion potential, temperature, and hydrogen fugacity. SCC growth rate responded to changes in yield strength, corrosion potential, and temperature - and was substantially independent of the martensite content per se, and the hydrogen fugacity (or hydrogen permeation rate). Unlike commercial heats, a model "stainless steel" alloy containing 5% Si showed high growth rates, little effect of corrosion potential, and little decrease in growth rate with decreasing stress intensity factor. Key Words" stainless steel, stress corrosion cracking, high temperature water, crack growth rate, corrosion potential, water purity, stress intensity factor, weld residual strain, cold work, sensitization.
The influence of yield strength on stress corrosion cracking in stainless steel is important because of surface cold work, bulk cold work, weld shrinkage strain, and irradiation hardening. To this end, stress corrosion crack growth rate measurements were performed in high temperature, ultra high purity water on unsensitized stainless steels (and alloy 600) of various grades and compositions as a function of heat, yield strength (cold work), martensite content, corrosion potential, temperature, and hydrogen fugacity. SCC growth rate responded to changes in yield strength, corrosion potential, and temperature - and was substantially independent of the martensite content per se, and the hydrogen fugacity (or hydrogen permeation rate). Unlike commercial heats, a model "stainless steel" alloy containing 5% Si showed high growth rates, little effect of corrosion potential, and little decrease in growth rate with decreasing stress intensity factor. Key Words" stainless steel, stress corrosion cracking, high temperature water, crack growth rate, corrosion potential, water purity, stress intensity factor, weld residual strain, cold work, sensitization.
PRICE BREAKS - The more you buy, the more you save
Quantity
1+
5+
Price
$20.00
$20.00
Product tags
Also Purchased
Picture for Effect of Cold Work on the Stress Corrosion Cracking Behavior of 316L Stainless Steel in Sour Servic
Available for download

51314-3783-Effect of Cold Work on the Stress Corrosion Cracking Behavior of 316L Stainless Steel in Sour Service

Product Number: 51314-3783-SG
ISBN: 3783 2014 CP
Author: David Fischer
Publication Date: 2014
$0.00
Picture for 03665 Combination of Cold Work and Heat Treatment
Available for download

03665 Combination of Cold Work and Heat Treatment on Stress Corrosion Cracking Susceptibility of L-grade Stainless Steel

Product Number: 51300-03665-SG
ISBN: 03665 2003 CP
Author: Yoshinori Katayama, Motoji Tsubota and Yoshiaki Saito
$20.00
Picture for 07605 Influence of Cold Work on IGSCC of 316 Stainless Steel in Hydrogenated High-Temperature Water
Available for download

07605 Influence of Cold Work on IGSCC of 316 Stainless Steel in Hydrogenated High-Temperature Water

Product Number: 51300-07605-SG
ISBN: 07605 2007 CP
Author: Takumi Terachi, Takuyo Yamada, Goro Chiba, and Koji Arioka
Publication Date: 2007
$20.00
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support