Research of Dynamic Compaction: A Review of Recent Academic Literature

Bin Bin Xu; Rui Qi Zhang; Guo Liang Ye

doi:10.4028/www.scientific.net/AMR.1079-1080.406

Paper Titles

A Method Based on Probability Analysis for Structural Damage Early Warning
p.386

Binder Leakage Test Methodology of Drainage Asphalt Mixture
p.390

By Using Software of Finite Element Analysis on the Joint Effect of the Direct Bolt Stress
p.397

The Modified Design on the Cantilever Machine Supporting the Roof Frame Anchor System
p.401

Research of Dynamic Compaction: A Review of Recent Academic Literature
p.406

Research on Simulation of Main and Auxiliary Road Interweaving at Approaches
p.410

Fire Resistance of Timber as a Building Material
p.415

Cost-Benefit Analysis of Applying SM570 Steel to Tall Buildings in Taiwan
p.419

Study on Sound Transmission Loss of Multilayer Composite Plate
p.423

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1079-1080Research of Dynamic Compaction: A Review of Recent...

Research of Dynamic Compaction: A Review of Recent Academic Literature

Abstract:

Dynamic compaction is one of the densification techniques of ground improvement and extensive theoretical, experimental and in-situ tests have been used to clarify its mechanism. In this paper, a literature review about the dynamic compaction is carried out and the emphasis is put on the reinforcement mechanism, effective reinforcement depth and influence range of vibration to give a reference for the ongoing researches of dynamic compaction method.

You might also be interested in these eBooks

Civil, Materials and Computing Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 1079-1080)

Pages:

406-409

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1079-1080.406

Citation:

Cite this paper

Online since:

December 2014

Authors:

Bin Bin Xu*, Rui Qi Zhang, Guo Liang Ye

Keywords:

Consolidation Depth, Dynamic Compaction, Ground Vibration, Reinforcement Mechanism

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] R.G. Lukas: FHWA/RD86/133, Fedral Highway Administration, Washington D. C, (1986).

Google Scholar

[2] L. Menard, I. Broise: Ground Treatment by Deep Compaction. Telford Ltd. London, (1976).

Google Scholar

[3] F.J. Leon: A case history intern. symp. on case histories in geotechnical engineering, (1981).

Google Scholar

[4] M.P. Gamhin: Proc. of the 8th . Conf. on Soil Mechanics and Foundation, En. Harare, (1984).

Google Scholar

[5] O. Sakaguchi, H. Nishiumi, M. Hattori et al.: The Japanese Society, 5-11, (1975).

Google Scholar

[6] Y. Zheng, X. Li, Y. Feng et al: Chinese Journal of Rock Mech. and Engg. 17(5), 571-80, (1998).

Google Scholar

[7] B.C. Sloeombe: Dynamic Compaction [M]. CRC Press, Inc. London, 20-39. (1993).

Google Scholar

[8] V. Luongo: In: Proc. of ASCE Specialty Conf. on Grouting, New Orleans. 2, 927-39. (1992).

Google Scholar

[9] P.C. Zhang, N. Wang: Rock and Soil Mechanics, 21(1), 76-80. (2000).

Google Scholar

[10] X.Z. Fei, W. Zhao, Z.B. Zhou: Journal of Sichuan University, 34(4), 56-59. (2002).

Google Scholar

[11] C.J. Poran, K.S. Heh, J.A. Rodriguez: Japanese Society of Soil Mechanics and Foundation Engineering. 32(4), 81-92. (1992).

Google Scholar

[12] P.W. Mayne, J.S. Jones, J.C. Dumas: Journal of Geotechnic Engineering, 757-73. (1984）.

Google Scholar

[13] K.M. Rollins, J.H. Kim: Geotechnical special publication, No. 45, 26-43. (1994).

Google Scholar

[14] R.T. Lukas, No. 1, Publication no. FHWA-SA-95-037. (1995).

Google Scholar

[15] L. Fang, F. Jing, S.Y. Liu: Journal of Southeast University, 31(3), 29-32. (2001).

Google Scholar

[16] X.Y. Qin, X.J. Li, D. Voerman et al.: Port and Waterway Enginnering, 9, 31-35. (2007).

Google Scholar