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Concepts and Applications of Finite Element Analysis
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In this article, the authors present a formal notation for one-dimensional elements in structural dynamics and vibrational properties of a structural system, including the following: 1. Isoparametric Elements.Abstract:
Notation. Introduction. One-Dimensional Elements, Computational Procedures. Basic Elements. Formulation Techniques: Variational Methods. Formulation Techniques: Galerkin and Other Weighted Residual Methods. Isoparametric Elements. Isoparametric Triangles and Tetrahedra. Coordinate Transformation and Selected Analysis Options. Error, Error Estimation, and Convergence. Modeling Considerations and Software Use. Finite Elements in Structural Dynamics and Vibrations. Heat Transfer and Selected Fluid Problems. Constaints: Penalty Forms, Locking, and Constraint Counting. Solid of Revolution. Plate Bending. Shells. Nonlinearity: An Introduction. Stress Stiffness and Buckling. Appendix A: Matrices: Selected Definition and Manipulations. Appendix B: Simultaneous Algebraic Equations. Appendix C: Eigenvalues and Eigenvectors. References. Index.read more
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Evaluation of the resistant capacity of cable nets using the finite element method and experimental validation
TL;DR: In this article, the authors evaluate the resistant capacity of cable nets for the stabilization of slopes using the finite element method (FEM) by means of the ANSYS program, which allows the extrapolation from tested cable nets to untested simulated cable nets, maintaining a basic configuration of constant parameters.
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Progressive failure analysis of a composite shell
TL;DR: In this article, the authors determine the physical response including material failure of a thin, curved composite panel designed to resist transverse loading through failure criterion based on nonlinear movement using a finite element analysis technique.
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Generalized buckling analysis of laminated plates with random material properties using stochastic finite elements
TL;DR: In this paper, a generalized layer-wise stochastic finite element formulation is developed for the buckling analysis of both homogeneous and laminated plates with random material properties, and the effect of variation in these stresses on the mean and coefficient of variation of buckling strength is studied.
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Buckling optimization of symmetrically laminated plates with various geometries and end conditions
Hsuan Teh Hu,Bor Horng Lin +1 more
TL;DR: In this paper, the buckling resistance of symmetrically laminated plates with a given material system and subjected to uniaxial compression is maximized with respect to fiber orientations by using a sequential linear programming method together with a simple move-limit strategy.
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A finite strip analysis of cracked laminates
S. Li,Stephen R Reid,P.D. Soden +2 more
TL;DR: In this article, the deformation of transversely cracked laminates is analyzed using a generalised plane strain approach and uses the finite strip method which allows general lay-ups of Laminates rather than just cross-ply to be considered.