Presentation is loading. Please wait.

Presentation is loading. Please wait.

Plate and shell elements All the following elements enable to create FE mesh of a thin-walled body, with the thickness being one of the important input.

Published byDonald Newton Modified over 8 years ago

Similar presentations

Presentation on theme: "Plate and shell elements All the following elements enable to create FE mesh of a thin-walled body, with the thickness being one of the important input."— Presentation transcript:

1 Plate and shell elements All the following elements enable to create FE mesh of a thin-walled body, with the thickness being one of the important input characteristics like material. Stress distribution corresponds to plate and shell theory, with zero normal component and in- plane components with linear distribution along the thickness. This means that both surfaces of such a thin-walled body must be checked to find a critical point of the structure. Another important feature of the plate and shell elements are the rotational degrees of freedom in nodes, added to the displacements. For this reason, coupling of solid and thin-walled elements in a single FE mesh must be done with care. Generally, there are two basic possibilities. The first one is face-to-face attachment (Fig. 6-1 a). Fig.6-1 Coupling of solid and thin-walled elements in case of a) different, b) the same deformation parameters in node

2 In case of the same type of deformation parameters in nodes, the elements can be attached in one line only (Fig.6-1 b). Plate element Plate element can be seen as a generalisation of a beam in two dimensions. The simplest 4-node plate element has 12 parameters, three in each node - one displacement and two rotations: Fig.6-2 Quadrilateral plate element The unknown deflection is approximated by an ordinary way where δ T = │w 1, φ x1, φ y1, w 2, φ x2, ……, φ x4, φ y4 │, N = │ N 1 N 2 N 3 …… N 12 │.

3 The stiffness matrix, where B is a matrix obtained as a second derivative of shape function matrix N. D m is a bending stiffness. Quadrilateral shell element Plate element according to the previous paragraph can model only bending of plates. Combination of this element with membrane elements like PLANE42 results in elements with combined bending-membrane behaviour, which can be used to model shells of general shapes. The combination according to Fig.6-3 shows the final shell element having six degrees of freedom in node, three displacements and three rotations: Fig.6-3 Shell element as a combination of plate and membrane element

4 In ANSYS, 4-node shell elements can be found under the names SHELL63 (linear behaviour), SHELL43 (nonlinear behaviour) or SHELL181 (strong nonlinearity). All of them can be degenerated into the triangular shape. In case of curved shell surfaces, 8- node SHELL93 element is best to use the complicated shape. The Example 6.1 illustrates application of shell elements for analysis of pipe intersection.SHELL63SHELL43SHELL181SHELL93Example 6.1

Download ppt "Plate and shell elements All the following elements enable to create FE mesh of a thin-walled body, with the thickness being one of the important input."

Similar presentations

Finite Element Method CHAPTER 8: FEM FOR PLATES & SHELLS

Finite Element Method CHAPTER 8: FEM FOR PLATES & SHELLS
CE595: Finite Elements in Elasticity

CE595: Finite Elements in Elasticity
FE analysis with shell and axisymmetric elements E. Tarallo, G. Mastinu POLITECNICO DI MILANO, Dipartimento di Meccanica.

FE analysis with shell and axisymmetric elements E. Tarallo, G. Mastinu POLITECNICO DI MILANO, Dipartimento di Meccanica.
Higher-order Linked Interpolation in Thick Plate Finite Elements

Higher-order Linked Interpolation in Thick Plate Finite Elements
Beams and Frames.

Beams and Frames.
1 TYPICAL ELEMENTS Triangular shell element 6 D.O.F. per node Tetrahedral solid element 3 D.O.F. per node First order elements Linear displacement distribution.

1 TYPICAL ELEMENTS Triangular shell element 6 D.O.F. per node Tetrahedral solid element 3 D.O.F. per node First order elements Linear displacement distribution.
Finite Element Model Generation Model size Element class – Element type, Number of dimensions, Size – Plane stress & Plane strain – Higher order elements.

Finite Element Model Generation Model size Element class – Element type, Number of dimensions, Size – Plane stress & Plane strain – Higher order elements.
Isoparametric elements

Isoparametric elements
Linked Interpolation in Higher-Order Triangular Mindlin Plate Finite Elements Dragan RIBARIĆ, Gordan JELENIĆ

Linked Interpolation in Higher-Order Triangular Mindlin Plate Finite Elements Dragan RIBARIĆ, Gordan JELENIĆ
Some Ideas Behind Finite Element Analysis

Some Ideas Behind Finite Element Analysis
NUMERICAL METHODS THAT CAN BE USED IN BIOMECHANICS 1)Mechanics of Materials Approach (A) Complex Beam Theory (i) Straight Beam (ii) Curved Beam (iii)

NUMERICAL METHODS THAT CAN BE USED IN BIOMECHANICS 1)Mechanics of Materials Approach (A) Complex Beam Theory (i) Straight Beam (ii) Curved Beam (iii)
Lecture 2 – Finite Element Method

Lecture 2 – Finite Element Method
Wind turbine blade design using FEM AFOLABI AKINGBE WEI CHENG WENYU ZHOU.

Wind turbine blade design using FEM AFOLABI AKINGBE WEI CHENG WENYU ZHOU.
Finite Element Primer for Engineers: Part 2

Finite Element Primer for Engineers: Part 2
Copyright 2001, J.E. Akin. All rights reserved. CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress Analysis.

Copyright 2001, J.E. Akin. All rights reserved. CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress Analysis.
DID YOU KNOW: slender or thin structures can be modelled with Shells in ANSYS? Consider a flat plate of dimensions 6m x 6m x 0.002m (thick); evaluate the.

DID YOU KNOW: slender or thin structures can be modelled with Shells in ANSYS? Consider a flat plate of dimensions 6m x 6m x 0.002m (thick); evaluate the.
Bars and Beams FEM Linear Static Analysis

Bars and Beams FEM Linear Static Analysis
Copyright © 2002J. E. Akin Rice University, MEMS Dept. CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress.

Copyright © 2002J. E. Akin Rice University, MEMS Dept. CAD and Finite Element Analysis Most ME CAD applications require a FEA in one or more areas: –Stress.
MANE 4240 & CIVL 4240 Introduction to Finite Elements

MANE 4240 & CIVL 4240 Introduction to Finite Elements
Theory of Elasticity Theory of elasticity governs response – Symmetric stress & strain components Governing equations – Equilibrium equations (3) – Strain-displacement.

Theory of Elasticity Theory of elasticity governs response – Symmetric stress & strain components Governing equations – Equilibrium equations (3) – Strain-displacement.

Similar presentations

Ads by Google