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Thermal stress in Maxwell body is formulated mathematically for cooled spheres; equations for instantaneous elasticity and flow are applied to calculation of quenching stress, and results compared with stress obtained from photoelastic experiments; it is shown that retarded elasticity and certain fracture phenomena can be attributed to macroscopic chemical inhomogeneities known to exist in glass.
Thermal stress in Maxwell body is formulated mathematically for cooled spheres; equations for instantaneous elasticity and flow are applied to calculation of quenching stress, and results compared with stress obtained from photoelastic experiments; it is shown that retarded elasticity and certain fracture phenomena can be attributed to macroscopic chemical inhomogeneities known to exist in glass.
Residual stress in glass spheres
Columbia Univ Dept Civil Eng -- Tech Report
Rongved, L. (author)
1954
38 pages
Bibliography.
Report
English
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