Affiliation:
1. National Institute for Research and Development in Construction, Urban Planning and Sustainable Spatial Development
Abstract
The paper presents the dynamic response in motion and stress transmitted to the soil to rotating inertial dynamic excitations, for each layer of soil with specific stiffness. Upon repeated passages on the same layer of soil, there will be taken into account the new rigidities that change the dynamic response called "successive transition" within the linear - elastic limit, up to the ultimate the achievement of the last end state of deformability.Parametric variation curves are specific to certain regularities families expressing multiple correlations, useful for assessing the degree of compaction by vibration of natural soils, by highlighting the movement of resonance points after each pass on the same layer of soil.
Publisher
Trans Tech Publications, Ltd.
Reference11 articles.
1. P. Erdmann, D. Adam, Numerical simulation of dynamic soil compaction with vibratory compaction equipment, XV Danube – European Conference on Geotechnical Engineering, H. Brandl & D. Adam (eds. ), Vienna, Austria (2014) 243-248.
2. M. Mooney, D. Adam, Vibratory roller integrated measurement on earthwork compaction: an overview, Proceedings FMGM 7th International Symposium on Field Measurements in Geomechanics, ASCE, Boston (2007) 1-12.
3. D. Siminiati, D. Hren, Simulation on vibratory roller – soil interaction, International Journal Advanced Engineering (1846-5900) (2008) 137-146.
4. D. L. Peterson, J. Siekmeier, C. R. Nelson, R. L. Peterson, Intelligent soil compaction technology: results and a roadmap toward widespread use, Transportation Research Record, Journal of the Transportation Research Board 1975 (1) (2006) 81-88.
5. D. Pietzsch, W. Poppy, Simulation of soil compaction with vibratory rollers, Journal of Terramechanics 29 (6) (1992) 585-597.
Cited by
9 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献