1 BRITE-EURAM, "“Surface properties of concrete roads in accordance with traffic safety and reduction of noise”, State-of-the-Art Report, Recommendations for Practice and Further Developments and Final Technical Report" 1994
2 Zhang, R., "Void content of no-fines concrete" 19 (19): 1051-1056, 1997
3 Park, S.B., "Studies on the sound absorption characteristics of porous concrete based on the content of recycled aggregate and target void ratio" 35 : 1846-1854, 2005
4 ASTM C39, "Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens" 2005
5 Haselbach, M.L., "Permeability predictions for sand-clogged Portland cement pervious concrete pavement systems" 84 (84): 42-49, 2006
6 Adil Amirjanov, "Optimal proportioning of concrete aggregates using a self-adaptive genetic algorithm" 국제구조공학회 2 (2): 411-421, 2005
7 Meininger, R.C., "No-Fines Pervious Concrete for Paving" 10 (10): 20-27, 1988
8 Schaefer, V., "Mix design development for pervious concrete in cold weather climates, Final Report, Feb 2006, Center for Transportation Research and Education" Iowa State University 2006
9 NRMCA, "Mix Design and Materials, Pervious concrete"
10 NRMCA, "FAQ"
1 BRITE-EURAM, "“Surface properties of concrete roads in accordance with traffic safety and reduction of noise”, State-of-the-Art Report, Recommendations for Practice and Further Developments and Final Technical Report" 1994
2 Zhang, R., "Void content of no-fines concrete" 19 (19): 1051-1056, 1997
3 Park, S.B., "Studies on the sound absorption characteristics of porous concrete based on the content of recycled aggregate and target void ratio" 35 : 1846-1854, 2005
4 ASTM C39, "Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens" 2005
5 Haselbach, M.L., "Permeability predictions for sand-clogged Portland cement pervious concrete pavement systems" 84 (84): 42-49, 2006
6 Adil Amirjanov, "Optimal proportioning of concrete aggregates using a self-adaptive genetic algorithm" 국제구조공학회 2 (2): 411-421, 2005
7 Meininger, R.C., "No-Fines Pervious Concrete for Paving" 10 (10): 20-27, 1988
8 Schaefer, V., "Mix design development for pervious concrete in cold weather climates, Final Report, Feb 2006, Center for Transportation Research and Education" Iowa State University 2006
9 NRMCA, "Mix Design and Materials, Pervious concrete"
10 NRMCA, "FAQ"
11 Neithalath,N., "Extracting the performance predictors of Enhanced Porosity Concretes from electrical conductivity spectra" 37 : 796-804, 2007
12 Yang, J., "Experimental study on properties of pervious concrete pavement materials" 33 : 381-386, 2003
13 Suh, N.P., "Design: advances and applications" Oxford University Press 2001
14 Mehta, P.K., "Concrete: microstructure, properties, and materials, 3rd Edition" McGraw-Hill 2006
15 Chopra, M., "Compressive strength of pervious concrete pavements, Final Report FDOT Project BD521-02, June, Stormwater Management Academy" University of Central Florida 2006
16 Chindaprasirt, P., "Cement paste characteristics and porous concrete properties" 22 : 894-901, 2008
17 Rattapoohm Parichatprecha, "An integrated approach for optimum design of HPC mix proportion using genetic algorithm and artificial neural networks" 국제구조공학회 6 (6): 253-268, 2009
18 Park, S.B., "An experimental study on the water-purification properties of porous concrete" 34 : 177-184, 2004