Accession Number : AD0640280
Title : THE EFFECT OF OXIDE FILMS ON DISLOCATION-SURFACE INTERACTIONS IN ALUMINUM.
Descriptive Note : Technical rept. 15 Aug 65-14 Aug 66,
Corporate Author : MIDWEST RESEARCH INST KANSAS CITY MO
Personal Author(s) : Grosskreutz,J. C. ; Bowles,C. Q.
Report Date : 14 AUG 1966
Pagination or Media Count : 35
Abstract : Aluminum single crystals were deformed in cyclic strain, both in air and in vacuum, and with both 50 and 100 A thick oxide films on the surface. The results show that deformation in vacuum produces a layer of edge dislocation dipoles trapped just beneath the surface as well as rducing the amount of surface slip. The effect of increasing the oxide coating thickness is to reduce the amount of slip observable on the surface of the oxide. As an aid in interpretation, the mechanical properties of thin, amorphous aluminum oxide films were measured in air and in vacuum. Young's modulus, E sub c, was found to increase by a factor of 4 under vacuum, and the fracture strength by a factor of 1.5. These increases are most likely due to the removal of absorbed water vapor. The increase in E sub c can account for the presence of the trapped dislocation dipoles under vacuum by using the theory of Head and Conners which predicts a net repulsive force on near-surface dislocations when the modulus of the coating is greater than the modulus of the substrate. The reduction in surface slip observed under vacuum is due to the increase in both E sub c and the strength properties of the oxide coating. (Author)
Descriptors : (*FILMS, CRYSTAL DEFECTS), (*OXIDES, FILMS), (*ALUMINUM, DEFORMATION), SINGLE CRYSTALS, MECHANICAL PROPERTIES, SURFACE PROPERTIES
Subject Categories : Metallurgy and Metallography
Distribution Statement : APPROVED FOR PUBLIC RELEASE