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A new micro scale FE model of crystalline materials in micro forming process

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posted on 2024-11-15, 19:43 authored by Liang Luo, Haibo XieHaibo Xie, Dongbin Wei, Xiaogang Wang, Cunlong Zhou, Zhengyi JiangZhengyi Jiang
Micro forming of metals has drawn global attention due to the increasing requirement of micro metal products. However, the size effects become significant in micro forming processes and affect the application of finite element (FE) simulation of micro forming processes. Dividing samples into small areas according to their microstructures and assigning individual properties to each small area are a possible access to micro forming simulation considering material size effects. In this study, a new model that includes both grains and their boundaries was developed based on the observed microstructures of samples. The divided subareas in the model have exact shapes and sizes with real crystals on the sample, and each grain and grain boundaries have their own properties. Moreover, two modelling methods using different information from the microstructural images were introduced in detail. The two modelling methods largely increase the availability of various microstructural images. The new model provides accurate results which present the size effects well.

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Citation

Luo, L., Xie, H., Wei, D., Wang, X., Zhou, C. & Jiang, Z. (2016). A new micro scale FE model of crystalline materials in micro forming process. MATEC Web of Conferences, 80 02002-1-02002-8.

Journal title

MATEC Web of Conferences

Volume

80

Language

English

RIS ID

112394

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