首页 /研究 /POROSIMETRY BY RANDOM NODE STRUCTURING IN VIRTUAL CONCRETE
OTHER

POROSIMETRY BY RANDOM NODE STRUCTURING IN VIRTUAL CONCRETE

Piet Stroeven, Nghi L.B. Le, L.J. Sluys, Huan He

发表年份
2012
引用次数
11
访问权限
开放获取

摘要

Two different porosimetry methods are presented in two successive papers. Inspiration for the development came from the rapidly-exploring random tree (RRT) approach used in robotics. The novel methods are applied to virtual cementitious materials produced by a modern concurrent algorithm-based discrete element modeling system, HADES. This would render possible realistically simulating all aspects of particulate matter that influence structure-sensitive features of the pore network structure in maturing concrete, namely size, shape and dispersion of the aggregate and cement particles. Pore space is a complex tortuous entity. Practical methods conventionally applied for assessment of pore size distribution may fail or present biased information. Among them, mercury intrusion porosimetry and 2D quantitative image analysis are popular. The mathematical morphology operator “opening” can be applied to sections and even provide 3D information on pore size distribution, provided isotropy is guaranteed. However, aggregate grain surfaces lead to anisotropy in porosity. The presented methods allow exploration of pore space in the virtual material, after which pore size distribution is derived from star volume measurements. In addition to size of pores their continuity is of crucial importance for durability estimation. Double-random multiple tree structuring (DRaMuTS), introduced earlier in IA&S (Stroeven et al., 2011b) and random node structuring (RaNoS) provide such information.

关键词

PorosimetryIsotropyStructuringAggregate (composite)Node (physics)Computer sciencePorosityMaterials sciencePorous mediumEngineering

相关论文

查看 OTHER 分类全部论文