Nonlinear two-dimensional static problems for thin shells with reinforced curvilinear holes

Guz, A. N.; Storozhuk, E. À.; Chernyshenko, I. S.

doi:10.1007/s10778-010-0268-6

Cited by 16 publications

(14 citation statements)

References 41 publications

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“…Despite their long history [1][2][3], studies of stress concentration in plates and shells with holes and inclusions (rings, washers, covers) are still relevant [5][6][7][8]. A similar situation exists with other problems in the mechanics for multiply connected and structurally inhomogeneous bodies [4,9].…”

Section: Introductionmentioning

confidence: 99%

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Stress concentration in a transversely isotropic spherical shell with two circular rigid inclusions

Chekhov

Zakora

2011

Int Appl Mech

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The refined Timoshenko-type theory that takes into account the transverse shear strains is used to find an analytic solution for the stress state of transversely isotropic shallow spherical shell with two circular rigid inclusions. The case of a shell with closely spaced rigid inclusions of unequal radii under internal pressure is analyzed numerically. The stresses in the shell increase considerably with decrease in the distance between the inclusions and increase in the transverse shear parameter

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Section: Introductionmentioning

confidence: 99%

“…To separate variables in the unknown functions in the qth coordinate system, we will follow Guz who proposed in [3,6] to use Graf's theorem for cylindrical functions in (5), (7), (9) and to expand each term of the power part of solution (6), (8) into the Laurent series. Doing so give the expressions …”

Section: Introductionmentioning

confidence: 99%

Stress concentration in a transversely isotropic spherical shell with two circular rigid inclusions

Chekhov

Zakora

2011

Int Appl Mech

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“…Study of the interaction between the boundaries of holes in thin-walled conical shells is an important task of solid mechanics. Most results on stress concentration around curvilinear and rectangular holes in conical shells made of metals and composites were obtained by solving linear elastic problems with analytic, variational, and numerical methods and are most fully reported in [2,3,9,13].Also of great interest are the solutions of two-dimensional problems for thin shells with holes of various shapes under high surface and boundary loads, which makes it necessary to take into account both the real properties of materials (plastic strains) and deformation behavior (finite deflections).Physically nonlinear cases of stress-concentration in conical shells with holes were examined in few publications. This is because the system of governing equations becomes very complicated when nonlinear factors are allowed for and there are holes in the lateral walls.…”

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confidence: 99%

Elastoplastic deformation of conical shells with two circular holes

2012

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The elastoplastic state of thin conical shells with two circular holes is analyzed. The stress distribution in the stress-concentration zone is examined using a proposed technique. The stress-strain state around the two circular holes in shells under internal pressure is analyzed taking plastic strains into account. Numerical results are presented in a tableIntroduction. Study of the interaction between the boundaries of holes in thin-walled conical shells is an important task of solid mechanics. Most results on stress concentration around curvilinear and rectangular holes in conical shells made of metals and composites were obtained by solving linear elastic problems with analytic, variational, and numerical methods and are most fully reported in [2,3,9,13].Also of great interest are the solutions of two-dimensional problems for thin shells with holes of various shapes under high surface and boundary loads, which makes it necessary to take into account both the real properties of materials (plastic strains) and deformation behavior (finite deflections).Physically nonlinear cases of stress-concentration in conical shells with holes were examined in few publications. This is because the system of governing equations becomes very complicated when nonlinear factors are allowed for and there are holes in the lateral walls. Therefore, most studies of the nonlinear deformation of conical shells with holes use mesh-based methods [14]. Note that most results on the nonlinear deformation of conical shells were obtained for the case of one hole. For example, numerical results were obtained, using a variational difference method, for an elastoplastic isotropic conical shell with rectangular [4] and circular [15] holes and for a nonlinear elastic orthotropic shell with a circular hole [1]. The combined effect of plastic strains and finite deflections on the stress-strain state of a conical shell with an elliptic or circular hole was studied in [7,8]. Numerical finite-element analyses were conducted for shells subject to uniform internal pressure. Two-dimensional nonlinear problems for a shell with a circular hole under axial forces were solved numerically in [6].Most numerical results on the stress-strain state around two circular holes were obtained for spherical [11,12] and cylindrical [10] shells. The FEM was used to analyze the effect of nonlinear factors on stress concentration and the interaction of the edges of holes in shells under known uniform internal pressure. For a cylindrical shell, the case of axial tension was numerically analyzed as well. The influence of plastic strains on the stress concentration around two circular holes in the lateral wall of a conical shell under tensile forces was studied in [5].Here we formulate elastoplastic problems for isotropic conical shells with two curved holes and develop a numerical technique to solve them. We will present specific numerical results on the inelastic deformation of a conical shell with two circular holes under high uniform internal pressure.

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“…The numerical results are presented as plots and tables Introduction. The major results on the stress-strain state around curved and rectangular holes in conical metallic and composite shells were obtained with analytic, variational, and numerical methods and are most fully covered in the monographs [1, 4, 5] and reviews [9][10][11].Only few publications address nonlinear problems of stress concentration in conical shells with holes. This is because of the complexity of the system of governing equations for conical shells with holes when nonlinear factors are taken into account.…”

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confidence: 99%

Elastoplastic state of flexible conical shells with a circular hole under axial tension

2011

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The elastoplastic state of thin conical shells with a circular hole is analyzed assuming finite deflections. The distributions of stresses, strains, and displacements along the hole boundary and in the zone of their concentration are studied. The stress-strain state of shells around the hole under axial tension is analyzed taking into account two nonlinear factors. The numerical results are presented as plots and tables Introduction. The major results on the stress-strain state around curved and rectangular holes in conical metallic and composite shells were obtained with analytic, variational, and numerical methods and are most fully covered in the monographs [1, 4, 5] and reviews [9][10][11].Only few publications address nonlinear problems of stress concentration in conical shells with holes. This is because of the complexity of the system of governing equations for conical shells with holes when nonlinear factors are taken into account. For this reason, most studies of the nonlinear deformation of such shells employ grid-based methods [12]. The numerical variational-difference method made it possible to solve the elastoplastic problem for a conical isotropic shell with rectangular [2] and circular [14] holes as well as for a nonlinear elastic orthotropic shell with a circular hole [3,9].The combined effect of plastic deformation and finite deflections on the stress-state of a conical shell with an opening was analyzed in [8] for a circular hole and in [7] for an elliptical hole. The finite-element method was used for numerical analysis of shells under internal pressure. Note that numerical solutions to two-dimensional nonlinear problems for axially loaded cylindrical shells were obtained only for one [6] and two [13] circular holes.Of interest is to solve physically and geometrically nonlinear problems of statics for conical shells with curved holes under axial loading. Expanding upon the studies [7, 8], we will present the basic equations and numerical results describing the distribution of displacements, strains, and stresses around a circular hole in a flexible conical shell under axial tension beyond the elastic range.

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Nonlinear two-dimensional static problems for thin shells with reinforced curvilinear holes

Cited by 16 publications

References 41 publications

Stress concentration in a transversely isotropic spherical shell with two circular rigid inclusions

Stress concentration in a transversely isotropic spherical shell with two circular rigid inclusions

Elastoplastic deformation of conical shells with two circular holes

Elastoplastic state of flexible conical shells with a circular hole under axial tension

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