Server maintenance is scheduled for Saturday, December 21st between 6am-10am CST.

During that time, parts of our website will be affected until maintenance is completed. Thank you for your patience.

Search
Filters
Close

51317-9761- Microstructural influences of corrosion sensitization in Al 5XXX series aluminum alloys

The relationship between this sensitization and the microstructural features of Al 5083-H116, 5083-H131, 5083-H321, 5456-H116 aluminum alloys, such as grain boundary misorientation angle, dislocation densities, and β phase nucleation densities were examined and reviewed.

Product Number: 51317-9761-SG
Author: Erik Sundberg / Michael Free
Publication Date: 2017
$20.00
$20.00
$20.00

Al 5XXX series aluminum alloys are being used in naval military applications, and being exposed to outdoor environments. With sufficient time and temperature exposure, these alloys undergo a process in which a secondary β phase forms at the grain boundary that sensitizes the alloy to stress corrosion cracking. The relationship between this sensitization and the microstructural features of Al 5083-H116, 5083-H131, 5083-H321, 5456-H116 aluminum alloys, such as grain boundary misorientation angle, dislocation densities, and β phase nucleation densities were examined and reviewed. Samples were aged for up to 30 months at varying temperatures (40°C, 50°C, 60°C, and 70°C), then analyzed using the ASTM G-67 mass loss test. Grain size and grain boundary information were collected via electron backscatter diffraction (EBSD). Geometrical dislocation density information was calculated from the EBSD data. SEM and AFM data were used to determine β phase nucleation density values. Grain boundary misorientation angle, grain size, and dislocation density were found to influence the β phase nucleation density and rate of sensitization. These features were correlated with the mass loss tests performed on these alloys at varying degrees of sensitization. A model was built to simulate the effects of these different factors on the sensitization rate and outcome of the mass loss tests.

Key words: conference papers, 2017 conference papers, Military, aluminum, alloys, stress corrosion cracking, ships, mass loss test

 

Al 5XXX series aluminum alloys are being used in naval military applications, and being exposed to outdoor environments. With sufficient time and temperature exposure, these alloys undergo a process in which a secondary β phase forms at the grain boundary that sensitizes the alloy to stress corrosion cracking. The relationship between this sensitization and the microstructural features of Al 5083-H116, 5083-H131, 5083-H321, 5456-H116 aluminum alloys, such as grain boundary misorientation angle, dislocation densities, and β phase nucleation densities were examined and reviewed. Samples were aged for up to 30 months at varying temperatures (40°C, 50°C, 60°C, and 70°C), then analyzed using the ASTM G-67 mass loss test. Grain size and grain boundary information were collected via electron backscatter diffraction (EBSD). Geometrical dislocation density information was calculated from the EBSD data. SEM and AFM data were used to determine β phase nucleation density values. Grain boundary misorientation angle, grain size, and dislocation density were found to influence the β phase nucleation density and rate of sensitization. These features were correlated with the mass loss tests performed on these alloys at varying degrees of sensitization. A model was built to simulate the effects of these different factors on the sensitization rate and outcome of the mass loss tests.

Key words: conference papers, 2017 conference papers, Military, aluminum, alloys, stress corrosion cracking, ships, mass loss test

 

Also Purchased
Picture for 99515 A SCANNING KELVIN PROBE ANALYSIS
Available for download

99515 A SCANNING KELVIN PROBE ANALYSIS OF ALUMINUM AND ALUMINUM ALLOYS

Product Number: 51300-99515-SG
ISBN: 99515 1999 CP
Author: Douglas C. Hansen, Gary E. Grecsek, Robert O. Roberts
$20.00
Picture for 99187 THE EFFECTS OF MICROSTRUCTURE ON MIC
Available for download

99187 THE EFFECTS OF MICROSTRUCTURE ON MIC SUSCEPTIBILITY IN HIGH STRENGTH ALUMINUM ALLOYS

Product Number: 51300-99187-SG
ISBN: 99187 1999 CP
Author: Daniel W. Walsh,
$20.00
Picture for 98740 RAPID ELECTROCHEMICAL CORROSION TESTING
Available for download

98740 RAPID ELECTROCHEMICAL CORROSION TESTING OF CHEMICALLY PASSIVATED ALUMINUM ALLOYS

Product Number: 51300-98740-SG
ISBN: 98740 1998 CP
Author: R. G. Buchheit, M. Cunningham, H. Jensen, M. W. Kendig, M. A. Martinez
$20.00