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- Title
Yield condition for circular cylindrical shells made of a fiber-reinforced composite.
- Authors
Movsumov, E. A.; Shamiev, F. H.
- Abstract
A yield condition is obtained for circular cylindrical shells made of a definite class of fiber-reinforced composite material whose components possess plastic properties. It is shown that, in the plane of generalized stresses — the axial bending moment and the circumferential force (when the axial force is absent) — the yield curve consists of two linear and four curvilinear sections. By approximating the curvilinear sections, we get a piecewise linear yield condition described by a hexagon in the plane indicated. The nonlinear equations and the corresponding piecewise linear equations of the yield condition for particular cases are given in the form of tables. In solving specific boundary-value problems, we consider a circular cylindrical shell simply supported at its ends and loaded with a uniform internal pressure, for which the load-carrying capacity is determined in relation to the mechanical properties of composite components and some characteristic geometrical parameters. The results of numerical calculations are represented in the form of graphs.
- Subjects
PLASTIC properties of metals; ENGINE cylinders; COMPOSITE materials; STRAINS &; stresses (Mechanics); MATERIAL plasticity; BENDING moment; NUMERICAL analysis
- Publication
Mechanics of Composite Materials, 2006, Vol 42, Issue 5, p459
- ISSN
0191-5665
- Publication type
Article
- DOI
10.1007/s11029-006-0056-x