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A Study on Fatigue Characteristics and Economic Analysis of Discharged Nylon Fiber-Reinforced Asphalt Concrete  

Baek, Ingyu (Department of Civil Engineering, University of Kyonggi)
Park, Kisun (Department of Civil Engineering, University of Kyonggi)
Kim, Nakseok (Department of Civil Engineering, University of Kyonggi)
Publication Information
Journal of the Society of Disaster Information / v.9, no.4, 2013 , pp. 476-483 More about this Journal
Abstract
In this study, discharged nylon fibers were added to asphalt concretes to be compared with fatigue life and analyzed in economic point of view. A four point bending fatigue test was conducted, and as a result, nylon fiber reinforced asphalt concretes that showed a 10percent increase in fatigue life compared to ordinary asphalt concrete. The economic analysis confirmed that the maintenance cost was decreased by 540 million won throughout the analyzing period. It is thought discharged nylon fiber reinforced asphalt will cause more economic and social effects than was shown by life cycle cost analysis.
Keywords
Discharged nylon; Usage of discharges; Four-point bending - fatigue test; Life cycle cost analysis;
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  • Reference
1 Ministry of Land, Infrastructure and Transport(2011), "SMA Pavement Production and Construction Guideline"
2 Ministry of Land, Infrastructure and Transport(2011), "Road Pavement Integrate Guideline"
3 Ministry of Land, Infrastructure and Transport(2012), "Road Business Manual"
4 Serfass, J.P., Samanos, J.(1996), "Fiber Modified Asphalt Concrete Characteristics, Applications and Behavior" Journal of the Association of Asphalt Paving Technologists, Vol.65, pp.193-230
5 Su, K., Hachiya, Y.(2008), "Examination of Fiber -Added Recycled Asphalt Concretes for Surface Course in Airport Pavements", First International Conference on Transportation Infrastructure. Beijing, China, April 2008.
6 Yoo, P.J., Choi, J.Y., Ohm, B.S.(2009), "Fatigue Characteristics of Bi-component Fiber Stands Reinforced Hot-Mix Asphalt", Korean Society of Road Engineers, Vol.2009, No.2, pp.145-150
7 Yoo, T.W., Hong, B.K, Hong, J.H.(2002), "Recycling Technology for Polymeric Materials Used in Automobile", Polymer Science and Technology, Vol.13, No.3, pp.288-298
8 Abtahi, S.M., Sheikhzadeh, M., Hejazi, S.M.(2010), "Fiber-reinforced asphalt-concrete - A review", Construction and Building Materials, 24, pp.871-877   DOI   ScienceOn
9 Huet, M., Boissoudy, A., Gramsammer, J., Bauduin, A., Samanos, J.(1990), "Experiments with porous asphalt on the Nantes fatigue test track", Transportation Research Record, No.1265, pp.54-58
10 Huang, H., White, T.D.(1996), "Dynamic properties of fiber-modified overlay mixture", Transportation Research Record, No.1545, pp.98-104
11 Jo, B.W, Tae, G.H, Kim, D.K.(2006), "A Study on the Economical Analysis Model for Asphalt Pavement in Congestion Area of Metropolitan", Korean Society of Civil Engineers, Vol.26, No.5, pp.771-781
12 KIA Motors(2012), "MOVE", Kia Motors Sustainability Magazine
13 Kim, W.H., Min, T.J., No, S.A., Seo, H.C., Lee, H.B., Kim, J.S.(2012), "Formability Evaluation for Energy Recycling of ASR", Korea Society of Waste Management, Vol.2012, pp.63-64
14 Maurer, D.A., Malasheskie, G.J.(1989), "Field performance of fabrics and fibers to retard reflective cracking", Geotextiles and Geomembranes, Vol.8, Issue.3, pp.239-267   DOI   ScienceOn