Author: S. J. Gill
Publisher:
ISBN:
Category :
Languages : en
Pages : 25
Book Description
Fatigue crack propagation was studied in MF-80 HSLA steel in ambient room air and in 3.5 percent NaC1 salt water. Region-II fatigue crack growth rate (da/dN) data were obtained at two load ratios, R=0.10 and R = 0.67. da/dN values were found to be affected by both load ratio and environment, with the greatest effect being caused by the combination of high load ratio and salt water environment. Overall, the results of this study suggest that MF-80 HSLA steel may have slightly less Region-II fatigue crack propagation resistance than other high-strength steels of comparable strength.
Fatigue Crack Propagation in an HSLA Steel (MF-80) in Air and in Salt Water
Author: S. J. Gill
Publisher:
ISBN:
Category :
Languages : en
Pages : 25
Book Description
Fatigue crack propagation was studied in MF-80 HSLA steel in ambient room air and in 3.5 percent NaC1 salt water. Region-II fatigue crack growth rate (da/dN) data were obtained at two load ratios, R=0.10 and R = 0.67. da/dN values were found to be affected by both load ratio and environment, with the greatest effect being caused by the combination of high load ratio and salt water environment. Overall, the results of this study suggest that MF-80 HSLA steel may have slightly less Region-II fatigue crack propagation resistance than other high-strength steels of comparable strength.
Publisher:
ISBN:
Category :
Languages : en
Pages : 25
Book Description
Fatigue crack propagation was studied in MF-80 HSLA steel in ambient room air and in 3.5 percent NaC1 salt water. Region-II fatigue crack growth rate (da/dN) data were obtained at two load ratios, R=0.10 and R = 0.67. da/dN values were found to be affected by both load ratio and environment, with the greatest effect being caused by the combination of high load ratio and salt water environment. Overall, the results of this study suggest that MF-80 HSLA steel may have slightly less Region-II fatigue crack propagation resistance than other high-strength steels of comparable strength.
Scientific and Technical Aerospace Reports
The Shock and Vibration Digest
Materials Science and Engineering at the Naval Research Laboratory
Author: Naval Research Laboratory (U.S.)
Publisher:
ISBN:
Category : Materials
Languages : en
Pages : 140
Book Description
Publisher:
ISBN:
Category : Materials
Languages : en
Pages : 140
Book Description
Marine Technology and SNAME News
Metals Abstracts
The Influence of Salt Water on Fatigue-Crack Growth in High-Strength Structural Steels
Author: TW. Crooker
Publisher:
ISBN:
Category : Corrosion and anti-corrosives
Languages : en
Pages : 14
Book Description
Fatigue-crack growth is a potential failure mechanism that can be strongly influenced by a salt-water environment. This paper discusses fatigue-crack-propagation studies performed on three high-strength structural steels: 9Ni-4Co-0.25C, 12Ni 180-grade maraging, and 18Ni 200-grade maraging. Each steel underwent a program of fatigue cycling in two environments, a "dry" environment consisting of ambient room air and a "wet" environment consisting of 3.5 percent NaCl salt water. Relationships for fatigue-crack-growth rates as a function of the fracture mechanics stress-intensity factor (K) were obtained experimentally for each steel in both environments. The engineering significance of these relationships is presented in terms of stress levels and flaw sizes relevant to the steels under investigation. The results of this work indicate that, in an air environment, the fatigue-crack-growth rate correlates with the stress-intensity-factor range according to the power-law relationship, da/dN = C (?K)m. Fatigue-crack growth in each of the steels was accelerated by the salt-water environment. However, the environmental response varied significantly, depending upon the material and the ?K level. The lower-toughness steel was less affected by environment, and environmental effects in all the steels diminished with increasing ?K levels. No correlation was observed between fatigue-crack-growth behavior in the salt-water environment and the stress-corrosion-cracking parameter (K Iscc) obtained on the same materials.
Publisher:
ISBN:
Category : Corrosion and anti-corrosives
Languages : en
Pages : 14
Book Description
Fatigue-crack growth is a potential failure mechanism that can be strongly influenced by a salt-water environment. This paper discusses fatigue-crack-propagation studies performed on three high-strength structural steels: 9Ni-4Co-0.25C, 12Ni 180-grade maraging, and 18Ni 200-grade maraging. Each steel underwent a program of fatigue cycling in two environments, a "dry" environment consisting of ambient room air and a "wet" environment consisting of 3.5 percent NaCl salt water. Relationships for fatigue-crack-growth rates as a function of the fracture mechanics stress-intensity factor (K) were obtained experimentally for each steel in both environments. The engineering significance of these relationships is presented in terms of stress levels and flaw sizes relevant to the steels under investigation. The results of this work indicate that, in an air environment, the fatigue-crack-growth rate correlates with the stress-intensity-factor range according to the power-law relationship, da/dN = C (?K)m. Fatigue-crack growth in each of the steels was accelerated by the salt-water environment. However, the environmental response varied significantly, depending upon the material and the ?K level. The lower-toughness steel was less affected by environment, and environmental effects in all the steels diminished with increasing ?K levels. No correlation was observed between fatigue-crack-growth behavior in the salt-water environment and the stress-corrosion-cracking parameter (K Iscc) obtained on the same materials.