Comparison of vibrocompaction methods by numerical simulations Conference Paper uri icon

abstract

  • Soils can be best compacted by repeated shearing. The strain amplitude plays an important role for the maximum compaction that can be reached. Experimental evidence emphasizes a vital impact of simultaneous multidirectional shear loading on the rate and magnitude of soil compaction. Two different vibrocompaction methods were analysed by numerical simulations in the light of these findings. In an elastic FE analysis strain paths were determined. A strain amplitude-dependent stiffness at small strains was introduced by multiple runs of the FE calculation to reach an appropriate stiffness for particular distances from the vibrator. Subsequently, the obtained strain paths were used to control single element simulations using hypoplasticity with intergranular strains. The calculated compaction profiles show three zones known from practical evidence: a limited compaction close to the vibrator, a zone of maximum compaction and a non-densified zone remote from the vibrator. The deep vibrator produces a faster compaction than the top vibrator, especially in the more distant zone. The more efficient work of the deep vibrator can be attributed to a more general multi-directional shearing. 2009 Taylor & Francis Group.

published proceedings

  • Geotechnics of Soft Soils - Focus on Ground Improvement - Proceedings of the 2nd International Workshop on Geotechnics of Soft Soils

author list (cited authors)

  • Arnold, M., Herle, I., & Wehr, J.

complete list of authors

  • Arnold, M||Herle, I||Wehr, J

publication date

  • December 2009