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Curved composite beam with interlayer slip loaded by radial load

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Ecsedi I., Lengyel Á. J.

Curved and Layered Structures

2015

tom 2

nr 1

Elastic two-layer curved composite beam with partial shear interaction is considered. It is assumed that each curved layer separately follows the Euler-Bernoulli hypothesis and the load slip relation for the flexible shear connection is a linear relationship. The curved composite beam at one of the end cross sections is fixed and the other end cross section is subjected by a concentrated radial load. Two cases are considered. In the first case the loaded end cross section is closed by a rigid plate and in the second case the radial load is applied immediately to it. The paper gives solutions for radial displacements, slips and stresses. The presented examples can be used as benchmark for the other types of solutions as given in this study.

Energy methods for curved composite beams with partial shear interaction

100%

Ecsedi I., Lengyel Á. J.

Curved and Layered Structures

2015

tom 2

nr 1

This paper presents a derivation of the Rayleigh- Betti reciprocity relation for layered curved composite beams with interlayer slip. The principle of minimum of potential energy is also formulated for two-layer curved composite beams and its applications are illustrated by numerical examples. The solution of the presented problems are obtained by the Ritz method. The applications of the Rayleigh-Betti reciprocity relation proven are illustrated by some examples.

Ograniczanie wyników

2 Curved and Layered Structures

2 Ecsedi I.

2 Lengyel Á. J.

2 2015

Wyniki wyszukiwania

Curved composite beam with interlayer slip loaded by radial load

Energy methods for curved composite beams with partial shear interaction