TY - JOUR
T1 - Large elastic deformation of shear deformable shells of revolution
T2 - Preprint - American Society of Mechanical Engineers
AU - Kempski, M. H.
AU - Taber, L. A.
AU - Su, Fong Chin
PY - 1988/12/1
Y1 - 1988/12/1
N2 - Through an integrating matrix approach, a numerical solution is obtained to the equations governing large elastic deformation of a clamped circular cylinder due to internal pressure. The shell equations include the effects of large strains, thickness changes, and transverse shear deformation. The numerical solution is compared to results from asymptotic analysis and experiments on rubber cylinders. A specialized Rivlin-Saunders strain energy density function is assumed for the rubber, with material constants determined from tensile tests and deformed cylinder profiles at a high inflation pressure.
AB - Through an integrating matrix approach, a numerical solution is obtained to the equations governing large elastic deformation of a clamped circular cylinder due to internal pressure. The shell equations include the effects of large strains, thickness changes, and transverse shear deformation. The numerical solution is compared to results from asymptotic analysis and experiments on rubber cylinders. A specialized Rivlin-Saunders strain energy density function is assumed for the rubber, with material constants determined from tensile tests and deformed cylinder profiles at a high inflation pressure.
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M3 - Conference article
AN - SCOPUS:0024143081
SP - WA/APM48 6
JO - American Society of Mechanical Engineers (Paper)
JF - American Society of Mechanical Engineers (Paper)
SN - 0402-1215
Y2 - 27 November 1988 through 2 December 1988
ER -