Advanced Methods and Future Perspectives (2014-03)¶
Vasilić Ksenija, Geiker Mette, , , Martys Nicos, ,
Contribution - Simulation of Fresh Concrete Flow, pp. 125-146
Abstract
The one-phase methods described in Chapter 2 were shown to be able to predict casting to some extent, but could not depict segregation, sedimentation and blockage occurring during flow. On the other hand, the distinct element methods described in Chapter 3 did not take into account the presence of two phases in the system and describes concrete as distinct elements interacting through more or less complex laws. A reliable numerical model of a multiphase material behaviour shall take into account both phases (solid and liquid). From the numerical point of view, concrete flow shall be seen therefore as the free surface flow of a highly-concentrated suspension of rigid grains.
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BibTeX
@inproceedings{vasi_geik_hatt_mart.2014.AMaFP,
author = "Ksenija Vasilić and Mette Geiker and Jesper Hattel and Laetitia Martinie and Nicos S. Martys and Nicolas Roussel and Jon Spangenberg",
title = "Advanced Methods and Future Perspectives",
doi = "10.1007/978-94-017-8884-7_5",
year = "2014",
volume = "15",
pages = "125--146",
booktitle = "Simulation of Fresh Concrete Flow",
editor = "Nicolas Roussel and Annika Gram",
}
Formatted Citation
K. Vasilić, “Advanced Methods and Future Perspectives”, in Simulation of Fresh Concrete Flow, 2014, vol. 15, pp. 125–146. doi: 10.1007/978-94-017-8884-7_5.
Vasilić, Ksenija, Mette Geiker, Jesper Hattel, Laetitia Martinie, Nicos S. Martys, Nicolas Roussel, and Jon Spangenberg. “Advanced Methods and Future Perspectives”. In Simulation of Fresh Concrete Flow, edited by Nicolas Roussel and Annika Gram, 15:125–46, 2014. https://doi.org/10.1007/978-94-017-8884-7_5.