Antimony as a factor in grain-boundary brittleness

The cracking of grain boundary facets in polycrystalline materials showing anisotropic thermal expansion behaviour is controlled by several microstructural factors in addition to the intrinsic thermal and elastic properties. Of specific interest are the relative orientation of the two grains meeting

This paper reports a study of grain boundary segregation of antimony and nickel in iron. These results show that nickel additions to the matrix increase antimony segregation. This observation is in agreement with previously reported work. Antimony additions to the matrix or segregation to the grain

Quasi-static crack advance has been statistically analysed as a function of interfacial toughness using a randomized two-dimensional, polycrystalline model. The average macroscopically observable toughness is calculated to be a strong function of interfacial toughness if the interfaces, grain bounda

The correlation between gram boundary embrittlement and the atomic structure of the boundaries were investigated in Cu f 0.1'6 Bi alloy by measuring the degrees of embrittlement (by means of varying degrees of ultrasonic irradiation) of about 10.000 boundaries of various structures. as a function of