论文信息 - DYNAMIC ANIMATION OF STRESS MODES VIA THE INTEGRATED FORCE METHOD OF STRUCTURAL ANALYSIS

DYNAMIC ANIMATION OF STRESS MODES VIA THE INTEGRATED FORCE METHOD OF STRUCTURAL ANALYSIS

Dynamic animation of stresses and displacements, which complement each other, can be a useful tool in the analysis and design of structural components. At the present time only displacement-mode animation is available through the popular stiffness formulation. This paper attempts to complete this valuable visualization tool by augmenting stress-mode animation to the existing art. The reformulated method of forces, which in the literature is known as the Integrated Force Method (IFM), became the analyser of choice for the development of stress-mode animation because stresses are the primary unknowns of its dynamic analysis. Animation of stresses and displacements, which have been developed successfully through the IFM analyzers, is illustrated in several examples along with a brief introduction to IFM dynamic analysis. The usefulness of animation in design optimization is illustrated considering the spacer structure component of the International Space Station as an example. An overview of the integrated force method analysis code (IFM/ANALYSERS) is provided in the appendix. © 1997 John Wiley & Sons, Ltd.

Surya N. Patnaik | Dale A. Hopkins | Rula M. Coroneos

[1] R. Gallagher,et al. Gradients of behaviour constraints and reanalysis via the integrated force method , 1986 .

[2] S. Patnaik. The variational energy formulation for the integrated force method , 1986 .

[3] L. Berke,et al. Improved accuracy for finite element structural analysis via an integrated force method , 1992 .

[4] Surya N. Patnaik,et al. Optimization of Space Station components using design code CometBoards , 1996 .

[5] Surya N. Patnaik,et al. Structural optimization with approximate sensitivities , 1994 .

[6] S. N. Patnaik,et al. Frequency analysis of structures by integrated force method , 1982 .

[7] Surya N. Patnaik,et al. Completed Beltrami-Michell Formulation for Analyzing Mixed Boundary Value Problems in Elasticity , 1995 .

[8] S. Patnaik. The integrated force method versus the standard force method , 1986 .

[9] John Argyris,et al. ASKA — Automatic System for Kinematic Analysis: A universal system for structural analysis based on the matrix displacement (finite element) method , 1969 .

[10] R. Gallagher,et al. Compatibility conditions of structural mechanics for finite element analysis , 1991 .