1 |
Hwang, S.D., Park, H.M. (2005). A study on engineering characteristics of asphalt concrete mixture using filler with recycled waste lime, Journal of Korean Society of Road Engineers, 7(3), 71-78.
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2 |
Jeong, J.S., Song, G.Y., Ahn, J.H., Kim, T.H. (2007). Utilization of stone sludges produced by stone manufacturing process as asphalt concrete filler, Journal of Korean Society of Civil Engineers, 27(4), 457-464 [in Korean].
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3 |
Kim, J.W. (1993). An experimental study on properties of electric arc furnace dust for mineral filler of asphalt concrete, Journal of Korea Concrete Institute, 5(3), 161-168 [in Korean].
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4 |
KS F 2337 Standard Test Methods for Resistance to Plastic Flow of Bituminous Mixtures Using Marshall Apparatus [in Korean].
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5 |
KS F 3501 Filler for Hot Mix Asphalt Pavement [in Korean].
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6 |
Kuh, S.E., Hwang, K.J., Kim, D.S., Kim, J.S. (2000). Study on the employment of waste garnet fines as asphalt concrete filler, Journal of Korean Society of Environmental Engineers, 22(9), 1555-1567 [in Korean].
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7 |
Ministry of Land, Infrastructure, and Transport, Production and Construction of the Asphalt Concrete Pavement Quality Inspection Handbook, (2013) [in Korean].
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8 |
Ministry of Land, Transport and Maritime Affairs, Road Construction Standard Specification [in Korean].
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9 |
National Center for Asphalt technology(NCAT), Asphalt Pavement Engineering Principles, International Journal of Highway Engineering [in Korean].
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10 |
SPS-KAI0002-F2349-5687 Hot Asphalt Mixture [in Korean].
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