Accession Number : AD0805144
Title : CRITICAL EVALUATION OF THE MECHANICAL BEHAVIOR OF BERYLLIUM.
Descriptive Note : Final rept. 17 Jan-31 Aug 66,
Corporate Author : FRANKLIN INST RESEARCH LABS PHILADELPHIA PA
Personal Author(s) : Conrad, H. ; Blades, J. ; Lalevic, B.
Report Date : OCT 1966
Pagination or Media Count : 50
Abstract : Data available in the literature on the mechanical behavior of beryllium were evaluated to ascertain the operative dislocation mechanisms. These suggest that the deformation dynamics of polycrystalline beryllium in the range of 78 K to 800 K is related to the motion of dislocation on the first order prism planes. Above 800 K, the yield stress exhibits a stronger temperature dependence than that for prism slip and the deformation dynamics may be associated with either the operation of C + a pyramidal slip or perhaps some diffusion-controlled mechanism. Insufficient data are presently available to positively identify the rate controlling dislocation mechanisms. The effect of hydrostatic pressure on the ductile-to-brittle transition temperature is in accord with the concept that the transition is associated with the operation of c + a pyramidal slip. As a first step in the study of the anisotropy of bonding in beryllium the elastic shear constant C = C(11) + C(12) + 2 C(33) - 4 C(13) has been calculated for beryllium using Jones' model and was found to be in good accord with the experimental value. Using this model, the effect of the addition of monovalent and polyvalent alloying elements on the elastic constant was calculated and found to be significant. (Author)
Descriptors : (*BERYLLIUM, MECHANICAL PROPERTIES), BONDING, TEMPERATURE, PERFORMANCE(ENGINEERING), STRESSES, GRAIN SIZE, BRITTLENESS, SINGLE CRYSTALS, DUCTILE BRITTLE TRANSITION, IMPURITIES, STRAIN(MECHANICS), DISLOCATIONS, CREEP, INTERACTIONS, TEST METHODS, PRESSURE, ELECTROSTATICS, ANISOTROPY, FRACTURE(MECHANICS).
Subject Categories : Metallurgy and Metallography
Distribution Statement : APPROVED FOR PUBLIC RELEASE