A Research on Elastoplastic Theory Based on Full State Function

Zhen Hai Wei; Meng Shu Wang; Ding Li Zhang

doi:10.4028/www.scientific.net/AMM.580-583.17

Paper Titles

3D Finite Element Analysis on Behaviour of Piled Raft Foundations
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A Modified Method to Fit Probability Distributions of Geotechnical Parameters Using Stochastic Weighted Entropy Principle
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A Research on Elastoplastic Theory Based on Full State Function
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Affect of Large Deep Foundation Pit Dewatering on the Neighboring Buildings
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Analysis of Monitoring Results of a Deep Foundation Pit with Pile-Anchor Retaining Structure
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Analysis on Strengthening of Plant to Slope Soil under Orthogonal States
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Centrifuge Model Study of High Strength Piles Composite Foundation Settlement & Instability under Embankment in Different Kind Soils by Different Pile Spacing
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Comparative Experimental Research of Soil Freezing with Pressure and Non-Pressure
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 580-583A Research on Elastoplastic Theory Based on Full...

A Research on Elastoplastic Theory Based on Full State Function

Abstract:

The analysis of structural materials, especially the theoretical research, is always a challenge. Starting from the structural characteristics of the material, the theory of full state function about the strength - stiffness - strain that reflects the properties of structural material is established on the basis of the structural state of the material. The full state function is an important method to solve this problem. In order to further analyze the characteristics of the full state function, the full state function, strength theory of the material and the constitutive relation found are first studied. It is found that the full state function can more comprehensively reflect the properties of the structural material. The full state function accommodates the strength theory in the classical elastic-plastic theory. The full constitutive relation of the materials can be derived from the full state function. That is to say, the full state function can unify the strength theory and constitutive relation in the classical theory and can be used for the analysis of the structural materials. The full state function is more than a mere form, because it has explicit physical and mechanical meanings.

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Periodical:

Applied Mechanics and Materials (Volumes 580-583)

Pages:

17-23

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.580-583.17

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Online since:

July 2014

Authors:

Zhen Hai Wei*, Meng Shu Wang, Ding Li Zhang

Keywords:

Complex Materials, Constitutive Relation, Full State Function, Strength Theory, Structural Materials

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* - Corresponding Author

References

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