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http://dx.doi.org/10.15683/kosdi.2017.06.30.191

A Study on the Fundamental Performance of a Lego Block System for Road Recovery  

Lim, Sunwoo (Department of Civil Engineering,University of Seoul)
Publication Information
Journal of the Society of Disaster Information / v.13, no.2, 2017 , pp. 191-198 More about this Journal
Abstract
Lego block system forms a temporary pavement area using the assembled structure block in the road excavation work for the maintenance and installation of facilities. This system was developed for a safe passage of vehicles and pedestrians. A study on the fundamental performance of a lego block system was performed through material quality, sliding resistance and compression tests. And compaction performance of ground on the road was reviewed and evaluated through field tests. As a result, a lego block system for road recovery showed the excellent performance and compaction effect.
Keywords
Lego block system; Road recovery; Fundamental performance; Compaction performance;
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  • Reference
1 Ministry of Land (2012), "Installation and Management Guidelines for Road Safety Facilities", Transport and Maritime Affairs in Korea.
2 Kim, J.G. (2009), "Method for temporary pavement road laid water supply and drain pipe using reclaimed", Korean Intellectual Property Office, 1008895210000.
3 Kim, Y.Y. and Kang, S.M. (2012), "Recycling rubber mat for temporary paving", Korean Intellectual Property Office, 1012055530000.
4 L. Mullins, (1969), "Softening of rubber by deformation", Rubber Chem. Tech., 42, 339   DOI
5 Lim, S.W., Kim, J.H. and Lee, C.S. (2016), "Dynamic Analysis of Lego Block System for the Road Recovery", J. Korean Soc. Hazard Mitig., Vol.16, No.1, pp.29-35.   DOI
6 P.K. Freakley, A.R. Payne (1978), "Theory and Practice of Engineering with Rubber", Applied Science Publishers LTD, London
7 Sekine S. (2013), "Member for temporarily recovering road surface and method for temporarily recovering road surface", Korean Intellectual Property Office, 1012584170000.
8 Seoul (2011), "Sliding Limit Criteria for Sidewalk Pavement in Seoul", Korea.
9 Woo, C.S. (2004), "A Study on the Fatigue life Prediction and Evaluation of the Rubber Components", Yeungnam University, Ph.D. thesis