Free-Edge Effects in Composite Laminates

Mittelstedt, Christian; Becker, Wilfried

doi:10.1115/1.2777169

Cited by 163 publications

(61 citation statements)

References 224 publications

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“…These localized stresses are of major concern because they may result in premature interlaminar failure, and reduction or complete loss of actuation/sensing authority of the piezoelectric layers. The need for accurate analytical/semianalytical solutions based on three-dimensional piezoelasticity/elasticity for such stress fields in laminated structures has been felt for a long time, but has remained largely unsolved so far [1], understandably so because of the inherent complexities involved in the problem. Here, three-dimensional piezoelasticity solutions refer to those wherein the governing equations of three-dimensional piezoelasticity are used to solve for the distributions of the field variables along the thickness direction, in contrast to the two-dimensional theories, which make a priori assumptions on the through-thickness distributions of the field variables, and the governing equations are obtained in terms of the inplane directions only.…”

Section: Introductionmentioning

confidence: 99%

Extended Kantorovich method for coupled piezoelasticity solution of piezolaminated plates showing edge effects

Kapuria

Kumari

2013

Proc. R. Soc. A.

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The powerful extended Kantorovich method (EKM) originally proposed by Kerr in 1968 is generalized to obtain a three-dimensional coupled piezoelasticity solution of smart piezoelectric laminated plates in cylindrical bending. Such solutions are needed to accurately predict the edge effects in these laminates under electromechanical loading. The Reissner-type mixed variational principle extended to piezoelasticity is used to develop the governing equations in terms of displacements, electric potential as well as stresses and electric displacements. It allows for exact satisfaction of the boundary conditions, including the non-homogeneous ones at all points. An n-term solution generates a set of 11n algebraic ordinary differential equations in the inplane direction and a similar set in the thickness direction for each lamina, which are solved in closed form. The multi-term EKM is shown to predict the coupled electromechanical response, including the edge effects, of single-layer piezoelectric sensors as well as hybrid laminated panels accurately, for both pressure and electric potential loadings. This work will facilitate development of accurate semi-analytical solutions of many other unresolved problems in threedimensional piezoelasticity, such as the free-edge stresses in hybrid laminates under bending, tension and twisting.

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Section: Introductionmentioning

confidence: 99%

Extended Kantorovich method for coupled piezoelasticity solution of piezolaminated plates showing edge effects

Kapuria

Kumari

2013

Proc. R. Soc. A.

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“…Kassapoglou and Lagace [10,19] were the first who applied the variational approach for analyzing stress concentrations near free edges. The reader is referred to the recent publications [1,2,16,17] for a detailed review of the developments in variational approach for the free-edge [1,2] and matrix cracking [16,17] stress transfer problems.…”

Section: Introductionmentioning

confidence: 99%

“…[7], it is not possible to develop a software based on the current variational formulations. It simply means that the results obtained from the available variational models regarding the free-edge stress transfer [1,2,10,19] are approximate and thus, do not reproduce very refined finite element results. In addition, due to implementation of the minimum complementary energy principle, all of the developed stressbased variational models either for analyzing cracked laminates or free-edge stress fields are formulated for traction loading conditions.…”

Section: Introductionmentioning

confidence: 99%

“…Although the free-edge problem is known from the 1970s, no analytical solutions exist that simultaneously satisfy the 3D elasticity governing equations along with all the traction free boundary conditions and the interface continuity conditions, due to the inherent complexities involved in the problem. Therefore, most approaches have been developed based on quasi-3D models or reduced 2D plate models [1] applied to a long rectangular composite laminate in which zero gradients along the axial coordinate are assumed. A comprehensive literature review on the methods proposed for determining the free-edge stress fields has been presented in Refs [1,2].…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, most approaches have been developed based on quasi-3D models or reduced 2D plate models [1] applied to a long rectangular composite laminate in which zero gradients along the axial coordinate are assumed. A comprehensive literature review on the methods proposed for determining the free-edge stress fields has been presented in Refs [1,2].…”

Section: Introductionmentioning

confidence: 99%

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A variational model for free-edge interlaminar stress analysis in general symmetric and thin-ply composite laminates

Hajikazemi

Paepegem

2018

Composite Structures

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A variational model is developed to exactly determine both stress and displacement fields at free edges of general symmetric composite laminate strips under thermomechanical loads. By partitioning the total stresses in a composite with free edges into unperturbed (without free edge) and perturbation stresses and using the minimum complementary energy principle, the optimal stress and displacement fields are derived that exactly satisfy equilibrium, compatibility, boundary and continuity conditions. The paper extends the theory of stress-based variational stress transfer so that the effects of both applied traction and displacement loads can be considered. It has been also shown how the displacement field can be determined for a stress-based variational approach.The results are compared to refined finite element results. The superiority of the developed method over finite element method, both in terms of accuracy and computational efficiency, is discussed.The method is also applicable to thin-ply laminates and is computationally efficient.

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References

2017

Handbook of Structural Life Assessment

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Free-Edge Effects in Composite Laminates

Cited by 163 publications

References 224 publications

Extended Kantorovich method for coupled piezoelasticity solution of piezolaminated plates showing edge effects

Extended Kantorovich method for coupled piezoelasticity solution of piezolaminated plates showing edge effects

A variational model for free-edge interlaminar stress analysis in general symmetric and thin-ply composite laminates

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