Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Mathematical model revealing the evolution of particle breakage and particle-size distribution for rockfill during triaxial shearing
A mathematical model reflecting the evolution of both particle breakage and particle-size distribution (PSD) for rockfill subjected to triaxial shear has been proposed in this article. First, the PSD of a soil is expressed by a gradation equation which has been shown to be widely applicable by comparison with a large amount of test data from soils encountered in practice. Then two particle breakage factors B g and B r are suggested and proved to be two suitable breakage factors in the model. Mathematical relationships between B g, B r and the gradation equation’s parameters b and m are derived. Then, correlations between the two breakage factors, effective mean normal stress and generalised shear strain during shearing are expressed by empirical functions, with several drained triaxial compression test data verifying the applicability. The inter-relationships of particle breakage, PSD and stress state of rockfill are thereby established, providing what is termed the PSD evolution model. Additionally, the proposed PSD evolution model is verified by successfully predicting the particle breakage factors and PSDs of rockfill triaxial specimens.
Mathematical model revealing the evolution of particle breakage and particle-size distribution for rockfill during triaxial shearing
A mathematical model reflecting the evolution of both particle breakage and particle-size distribution (PSD) for rockfill subjected to triaxial shear has been proposed in this article. First, the PSD of a soil is expressed by a gradation equation which has been shown to be widely applicable by comparison with a large amount of test data from soils encountered in practice. Then two particle breakage factors B g and B r are suggested and proved to be two suitable breakage factors in the model. Mathematical relationships between B g, B r and the gradation equation’s parameters b and m are derived. Then, correlations between the two breakage factors, effective mean normal stress and generalised shear strain during shearing are expressed by empirical functions, with several drained triaxial compression test data verifying the applicability. The inter-relationships of particle breakage, PSD and stress state of rockfill are thereby established, providing what is termed the PSD evolution model. Additionally, the proposed PSD evolution model is verified by successfully predicting the particle breakage factors and PSDs of rockfill triaxial specimens.
Mathematical model revealing the evolution of particle breakage and particle-size distribution for rockfill during triaxial shearing
Guo, Wanli (Autor:in) / Huang, Yinghao (Autor:in) / Fourie, Andy (Autor:in) / Wu, Yingli (Autor:in)
European Journal of Environmental and Civil Engineering ; 25 ; 893-908
08.03.2021
16 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
Research on the Particle Breakage of Rockfill Materials during Triaxial Tests
| Online Contents | 2017
Analysis of Particle Breakage for Blasted Rockfill Material Under Large Size Triaxial Testing
| Springer Verlag | 2022