Accession Number : AD0613350
Title : ANISOTROPY AND STRENGTH OF CERAMIC BODIES.
Descriptive Note : Progress rept. no. 9-12, 15 Oct 63-15 Oct 64,
Corporate Author : PENNSYLVANIA STATE UNIV UNIVERSITY PARK DEPT OF CERAMIC TECHNOLOGY
Personal Author(s) : Buessem,W. R. ; McKinstry,H. A. ; Barsch,G. R.
Report Date : 15 OCT 1964
Pagination or Media Count : 61
Abstract : The effect of elastic and thermal expansion anisotropy on the strength of ceramic materials is being investigated using ceramic bodies prepared from compositions where one of the anisotropy factors is known to be a minimum. The second order elastic constants of solid solution systems are being measured to determine the effect of composition on elastic anisotropy. The third order elastic constants were successfully measured for fused silica, Ge and MgO. The study of the strength of the grain boundary in bicrystals of MgO is nearing its completion. A theory for calculating the mechanical strength of crystals was developed which makes use of the experimentally determined second and third order elastic constants. This makes possible a more realistic estimation of the maximum strength attainable. (Author)
Descriptors : (*CERAMIC MATERIALS, TENSILE PROPERTIES), (*ANISOTROPY, CERAMIC MATERIALS), (*GERMANIUM, CERAMIC MATERIALS), (*MAGNESIUM COMPOUNDS, OXIDES), (*SILICON COMPOUNDS, DIOXIDES), SINGLE CRYSTALS, CRYSTAL STRUCTURE, ELASTIC PROPERTIES, THERMAL EXPANSION, HYDROSTATIC PRESSURE, SINTERING
Distribution Statement : APPROVED FOR PUBLIC RELEASE