Determination of size of representative volume element for coke using homogenization method based on digital image of actual microstructure

Xiaoqing Zhang, Yoshiaki Yamazaki, Kenichi Hiraki, Tetsuya Kanai, Ataru Uchida, Yasuhiro Saito, Masakazu Shoji, Hideyuki Aoki, Takatoshi Miura

Research output: Contribution to journalArticlepeer-review

Abstract

When the homogenization method based on the digital image of actual microstructure is used to analyze the strength of coke, the representative volume element (RVE) is a crucial input to predict reliable results. The shape of RVE was identified as square, due to the two-dimensional numerical analysis with the research object being a section image of a coke sample was studied. The variation of multi-scale mechanical properties of coke according to a large number of unit cells with various scales was investigated to determine the proper RVE size. The resolution of calculation equaling original resolution was considered as Case 1. The other low resolution of calculation was considered as Case 2. The results showed that, in the macro-scale (homogenization) analysis, the proper size of RVE on coke's sample should be chosen larger than 874.8 μm, due to the mean calculated homogenized Young's modulus was almost constant in the case of unit cell larger than 874.8 μ m. In the micro-scale (localization) analysis, in Case 1, unit cell of a large scale was prone to stress concentration which happened at the relative thin parts of structure around large pores. In Case 2, it was considered that high resolution was necessary, because low resolution changed the structural characteristic. Finally, the optimum size of RVE on coke's sample was determined as 2 624.4 μ m, which could represent the structural relativity of the research object.

Original languageEnglish
Pages (from-to)1250-1256
Number of pages7
JournalIsij International
Volume52
Issue number7
DOIs
Publication statusPublished - 2012

Keywords

  • Coke strength
  • Homogenization method
  • Microstructure
  • RVE
  • Stress concentration

ASJC Scopus subject areas

  • Mechanics of Materials
  • Mechanical Engineering
  • Metals and Alloys
  • Materials Chemistry

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