3D Modeling Based on Multiscale FE Analysis of Irregular Porous Materials

Ying Jie Zhang

doi:10.4028/www.scientific.net/AMR.734-737.2451

Paper Titles

Preliminary Study on the Electrolysis of Titanium Oxysalt
p.2430

Electrification Theory and Experimental Research of Aluminum-Based Metallic Material
p.2434

Sediment from the Yellow River Salvaging as Glass-Ceramics
p.2439

One Method for Estimating Normal Contact Stiffness with R_a and Adhesion Rate
p.2443

3D Modeling Based on Multiscale FE Analysis of Irregular Porous Materials
p.2451

A New and Sensitive Hydride Generation-Nanosilver Resonance Rayleigh Scattering Spectral Method for Trace Se (IV)
p.2456

A Performance Study of Self-Piercing Riveting of Aluminum and Copper Alloy Sheets
p.2460

Analyzing on the Reasonable Composition of High-Chromium Alloy Cast Iron to Make the Mud Pump Shell of Dredger
p.2465

Carbon Fiber Application Analysis in the Apparel Field
p.2470

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 734-7373D Modeling Based on Multiscale FE Analysis of...

3D Modeling Based on Multiscale FE Analysis of Irregular Porous Materials

Abstract:

This paper presented a new multiscale finite element method for mechanical analysis of irregular porous materials. Realization of the proposed approach requires synergy between a hierarchical geometric model and a mechanical model for local material properties. The geometric model can represent intermediate scales and facilitates continuous bi-directional transition between macro-and micro-scales, while the mechanical model preserves the effective material properties for each scale.

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Periodical:

Advanced Materials Research (Volumes 734-737)

Pages:

2451-2455

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.734-737.2451

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Online since:

August 2013

Authors:

Ying Jie Zhang

Keywords:

FE Analysis, Multiscale Modeling, Voronoi Tessellation

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References

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