The mechanics of thermal self-straining in fibre-reinforced materials are explained. Stress distributions obtained from finite-element calculations are compared with results from photothermoelastic analysis of models.
DanielI. M.DurelliA. J.‘Shrinkage stresses around rigid inclusions’, Proc. Soc. exp. Stress Analysis196219, 240.
5.
SampsonR. C.‘A three-dimensional photoelastic method for analysis of differential contraction stresses’, Proc. Soc. exp. Stress Analysis196320, 225.
6.
FrochtM. M. (editor). Symposium on photoelasticity1963 (Pergamon Press, Oxford).
7.
DanielI. M.DurelliA. J.‘Photothermoelastic analysis of bonded propellant grains’, Proc. Soc. exp. Stress Analysis196118, 97.
8.
9.
DurelliA. J.ParksV. J.‘Photoelastic stress analysis on the bonded interface of a strip with different end configurations’, Bull. Am. Ceram. Soc.196746, 582.
10.
ZienkiewiczO. C.CheungY. K.The finite element method and continuum mechanics1967 (McGraw-Hill Book Co. Inc., New York and London).
11.
WilsonE. L.‘Finite element analysis of 2-dimensional structures’, Structures and Materials Research Department of Civil Engineering Report No. 63–2, June 1963 (University of California).
12.
OutwaterJ. O.‘The promise and reality in filament-wound laminates’, Chem. Engr, Lond.1964 No. 182, 232.
13.
SuttonW. H.Gen. Electric Co. Report, Contract NOW-60–0465-d, 1960–64.
