NONSMOOTH MODEL FOR PLASTIC LIMIT ANALYSIS AND ITS SMOOTHING ALGORITHM

NONSMOOTH MODEL FOR PLASTIC LIMIT ANALYSIS AND ITS SMOOTHING ALGORITHM

By means of Lagrange duality of Hill's maximum plastic work principle theory of the convex program, a dual problem under Mises' yield condition has been derived and whereby a non-differentiable convex optimization model for the limit analysis is developed. With this model, it is not necessary to lin...

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Veröffentlicht in:Applied mathematics and mechanics 2006-08, Vol.27 (8), p.1081-1088
1. Verfasser: 李建宇 潘少华 李兴斯
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Continuums
Limit load
Mathematical models
Norms
Optimization
Smoothing
Strain
塑料有限分析
对偶性
平滑法
非光滑优化
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Zusammenfassung:By means of Lagrange duality of Hill's maximum plastic work principle theory of the convex program, a dual problem under Mises' yield condition has been derived and whereby a non-differentiable convex optimization model for the limit analysis is developed. With this model, it is not necessary to linearize the yield condition and its discrete form becomes a minimization problem of the sum of Euclidean norms subject to linear constraints. Aimed at resolving the non-differentiability of Euclidean norms, a smoothing algorithm for the limit analysis of perfect-plastic continuum media is proposed. Its efficiency is demonstrated by computing the limit load factor and the collapse state for some plane stress and plain strain problems.
ISSN:0253-4827
1573-2754
DOI:10.1007/s10483-006-0808-z