Your search keyword '"Pure Bending Collapse"' showing total 3 results

1. PREDICTION OF MAXIMUM MOMENT OF CIRCULAR TUBES SUBJECTED TO PURE BENDING IN CONSIDERATION OF THE LENGTH EFFECT.

Author

MASUDA, KENICHI, DAI-HENG CHEN, OZAKI, SHINGO, and USHIJIMA, KUNIHARU

Subjects

*FINITE element method, *BENDING (Metalwork), *METALWORK, *BENDING electric conduits, *PIPE bending, *NUMERICAL analysis, *STRAINS & stresses (Mechanics), *BENDING moment

Abstract

In the present study, the bending collapse of an elastoplastic cylindrical tube subjected to static pure bending is investigated using the finite element method (FEM). The moment of the elastoplastic cylindrical tube is controlled by the flattening rate of the tube cross-section. For a long tube, the flattening rate can be expressed in terms of the axial and circumferential stresses that, in turn, depend on the material and geometrical properties and the curvature of the tube. On the other hand, for a short tube, the boundary condition of the fixed walls prevents the flattening rate. In order to account for the length effect of tubes, we propose a new method in which flattening is considered as a deflection problem of a fixed curved beam. The proposed method was able to predict the change in the flattening rate as the curvature was increased. A rational prediction method is proposed for estimating the maximum bending moment of cylindrical tubes that accounts for the length effect. Its validity is demonstrated by comparing it predictions with numerical results obtained using the finite element method. [ABSTRACT FROM AUTHOR]

Published

2008

2. Study on Elastoplastic Pure Bending Collapse of Cylindrical Tubes with Consideration of the Length Effect

Author

Kenichi Masuda and Dai-heng Chen

Subjects

Pure Bending Collapse, Cylindrical Tube, Numerical Analysis, Materials science, Plasticity, Buckling, Mechanical Engineering, Length effect, Collapse (topology), Flattening, Mechanics of Materials, Finite Element Method, Pure bending, General Materials Science, Composite material, Astrophysics::Galaxy Astrophysics

Abstract

In this paper, the elastoplastic collapse of a cylindrical tube subjected to pure bending is studied by using the finite element method. There exist two types of collapse: a collapse due to buckling at the compression side and a collapse due to flattening of the cross-section. In the flattening collapse, the maximum bending moment is controlled by the flattening rate of the tube cross-section. For a short tube, the boundary condition of the fixed walls at the both ends prevents the flattening development. A theoretical prediction method of the flattening rate and the maximum bending moment of cylindrical tubes subjected to pure bending is proposed, in which the effect of the tube length is taken into account. In the method the flattening is simulated by a deflection problem of a beam based on distributed springs. The validity of the proposed method is verified by numerical results of FEM.

Published

2010

3. Study on Elastoplastic Pure Bending Collapse of Cylindrical Tubes

Subjects

Pure Bending Collapse, Cylindrical Tube, Plasticity, Finite Element Method, Ovalisation

Abstract

In this paper, the elastoplastic bending collapse of cylindrical tube subjected to statically pure bending is studied by using finite element method (FEM). It is revealed in the case of infinite length that the moment of the elastoplastic cylindrical tube is controlled by flattening ratio of tube. Also, it is shown that the flattening ratio of tube can be expressed by axial and circumferential stress as a function of the material and geometrical properties and curvatures. Based on these facts, an approximate numerical method to estimate the maximum moment of cylindrical tubes is proposed, and its validity is shown by comparing with numerical results of FEM.

Published

2008