Effect of using recycled coarse aggregate and recycled asphalt pavement on the properties of pervious concrete |
Shatarat, Nasim K.
(Civil Engineering Department, The University of Jordan)
Katkhuda, Hasan N. (Civil Engineering Department, The Hashemite University) Hyari, Khaled H. (Civil Engineering Department, The Hashemite University) Asi, Ibrahim (Arab Center for Engineering Studies) |
1 | Zhang, Z., Zhang, Y., Yan, C. and Liu, Y. (2017), "Influence of crushing index on properties of recycled aggregates pervious concrete", Constr. Build. Mater., 135, 112-118. DOI |
2 | Zaetang, Y., Sata, V., Wongsa, A. and Chindaprasirt, P. (2016), "Properties of pervious concrete containing recycled concrete block aggregate and recycled concrete aggregate", Constr. Build. Mater., 111, 15-21. DOI |
3 | Huang, B., Shu, X. and Burdette, E.G. (2006), "Mechanical properties of concrete containing recycled asphalt pavements", Mag. Concrete Res., 58(5), 313-320. DOI |
4 | Huang, B., Shu, X. and Li, G. (2005), "Laboratory investigation of Portland cement concrete containing recycled asphalt pavements", Cement Concrete Res., 35(10), 2008-2013. DOI |
5 | Ibrahim, H.A. and Abdul Razak, H. (2016), "Effect of palm oil clinker incorporation on properties of pervious concrete", Constr. Build. Mater., 115, 70-77. DOI |
6 | Khankhaje, E., Salim, M.R., Mirza, J., Salmiati, H.M.W., Khan, R. and Rafieizonooz, M. (2017), "Properties of quiet pervious concrete containing oil palm kernel shell and cockleshell", Appl. Acoust., 122, 113-120. DOI |
7 | Saride, S., Avirneni, D. and Challapalli, S. (2016), "Micromechanical interaction of activated fly ash mortar and reclaimed asphalt pavement materials", Constr. Build. Mater., 123, 424-435. DOI |
8 | Shi, C., Li, Y., Zhang, J., Li, W., Chong, L. and Xie, Z. (2016), "Performance enhancement of recycled concrete aggregate: A review", J. Clean. Prod., 112, 466-472. DOI |
9 | Shahidan, S., Azmi, M.Z.M, Kupusamy, K., Zuki, S.S.M. and Ali, N. (2017), "Utilizing construction and demolition (C&D) waste as recycled aggregates (RA) in concrete", Proc. Eng., 174, 1028-1035. DOI |
10 | Sriravindrarajah, R., Wang, N.D.H. and Ervin, L.J.W. (2012), "Mix design for pervious recycled aggregate concrete", Int. J. Concrete Struct. Mater., 6(4), 239-246. DOI |
11 | Tavares, L.M. and Kazmierczak, C.S. (2016), "The influence of recycled concrete aggregates in pervious concrete", Ibracon Struct. Mater. J., 9(1), 75-90. |
12 | Yeih, W., Fu, T.C., Chang, J.J. and Huang, R. (2015), "Properties of pervious concrete made with air-cooling electric arc furnace slag as aggregates", Constr. Build. Mater., 93, 737-745. DOI |
13 | Yildirim, S., Meyer, C. and Herfellner, S. (2015), "Effects of internal curing on the strength, drying shrinkage and freezethaw resistance of concrete containing recycled concrete aggregates", Constr. Build. Mater., 91, 288-296. DOI |
14 | Zhang, J., Shi, C., Li, Y., Pan, X., Poon, C. and Xie, Z. (2015), "Performance enhancement of recycled concrete aggregates through carbonation", J. Mater. Civil Eng., 27(11), 04015029. DOI |
15 | Seo, D.S. and Choi, H.B. (2014), "Effects of the old cement mortar attached to the recycled aggregate surface on the bond characteristics between aggregate and cement mortar", Constr. Build. Mater., 59, 72-77. DOI |
16 | Brand, A.S. and Roesler, J.R. (2015), "Ternary concrete with fractionated reclaimed asphalt pavement", Mater. J., 112(1), 155-164. |
17 | Brake, N.A., Allahdadi, H. and Adam, F. (2016), "Flexural strength and fracture size effects of pervious concrete", Constr. Build. Mater., 113, 536-543. DOI |
18 | Bravo, M., De Brito, J., Pontes, J. and Evangelista, L. (2015), "Durability performance of concrete with recycled aggregates from construction and demolition waste plants", Constr. Build. Mater., 77, 357-369. DOI |
19 | Barnhouse, P.W. and Srubar III, W.V. (2016), "Material characterization and hydraulic conductivity modeling of macroporous recycled-aggregate pervious concrete", Constr. Build. Mater., 110, 89-97. DOI |
20 | Bilondi, M.P., Marandi, S.M. and Ghasemi, F. (2016), "Effect of recycled glass powder on asphalt concrete modification", Struct. Eng. Mech., 59(2), 373-385. DOI |
21 | Chandrappa, A.K. and Biligiri, K.P. (2016), "Pervious concrete as a sustainable pavement material-research findings and future prospects: A state-of-the-art review", Constr. Build. Mater., 111, 262-274. DOI |
22 | Chang, J.J., Yeih, W., Chung, T.J. and Huang, R. (2016), "Properties of pervious concrete made with electric arc furnace slag and alkali-activated slag cement", Constr. Build. Mater., 109, 34-40. DOI |
23 | ASTM C131-14 Standard Test Method for Resistance to Degradation of Small-Size Coarse Aggregate by Abrasion and Impact in the Los Angeles Machine. |
24 | Chinchillas-Chinchillas, M.J., Corral-Higuera, R., Gomez-Soberon, J.M., Arredondo-Rea, S.P., Alamaral-Sanchez, J.L., Acuna-Aguero, O.H. and Rosas-Casarez, C.A. (2014), "Influence of the shape of the natural aggregates, recycled and silica fume on the mechanical properties of pervious concrete", Int. J. Adv. Comput. Sci. Appl., 4(4), 216-220. |
25 | Erdem, S. and Blankson, M.A. (2014), "Environmental performance and mechanical analysis of concrete containing recycled asphalt pavement (RAP) and waste precast concrete as aggregate", J. Hazard. Mater., 264, 403-410. DOI |
26 | ASTM C29-17 Standard Test Method for Bulk Density (Unit Weight) and Voids in Aggregate. |
27 | ASTM C127-15 Standard Test Method for Relative Density (Specific Gravity) and Absorption of Coarse Aggregate. |
28 | ASTM C1754-12 Standard Test Method for Density and Void Content of Hardened Pervious Concrete. |
29 | ASTM C39-17 Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens. |
30 | ASTM C496-11 Standard Test Method for Splitting Tensile Strength of Cylindrical Concrete Specimens. |
31 | ASTM C293-16 Standard Test Method for Flexural Strength of Concrete (Using Simple Beam With Center-Point Loading). |
32 | Andre, A., De Brito, J., Rosa, A. and Pedro, D. (2014), "Durability performance of concrete incorporating coarse aggregates from marble industry waste", J. Clean. Prod., 65, 389-396. DOI |
33 | Katkhuda, H., Shatarat, N. and Hyari, K. (2017), "Effect of silica fume on mechanical properties of concrete containing recycled asphalt pavement", Struct. Eng. Mech., 62(3), 357-364. DOI |
34 | Al-Oraimi, S., Hassan, H.F. and Hago, A. (2009), "Recycling of reclaimed asphalt pavement in Portland cement concrete", J. Eng. Res., 6(1), 37-45. DOI |
35 | Katkhuda, H. and Shatarat, N. (2016), "Shear behavior of reinforced concrete beams using treated recycled concrete aggregate", Constr. Build. Mater., 125, 63-71. DOI |
36 | Katkhuda, H. and Shatarat, N. (2017), "Improving the mechanical properties of recycled concrete aggregate using chopped basalt fibers and acid treatment", Constr. Build. Mater., 140, 328-335. DOI |
37 | Osic, K.C., Korat, L., Ducman, V. and Netinger, I. (2015), "Influence of aggregate type and size on properties of pervious concrete", Constr. Build. Mater., 78, 69-76. DOI |
38 | Koenders, E., Pepe, M. and Martinelli, E. (2014), "Compressive strength and hydration processes of concrete with recycled aggregates", Cement Concrete Res., 56, 203-212. DOI |
39 | Modarres, A. and Hosseini, Z. (2014), "Mechanical properties of roller compacted concrete containing rice husk ash with original and recycled asphalt pavement material", Mater. Des., 64, 227-236. DOI |
40 | Nguyen, D.H., Boutouil, M., Sebaibi, N., Baraud, F. and Leleyter, L. (2017), "Durability of pervious concrete using crushed seashells", Constr. Build. Mater., 135, 137-150. DOI |
41 | Okafor, F. (2010), "Performance of recycled asphalt pavement as coarse aggregate in concrete", Leon. Electr. J. Pract. Technol., 17, 47-58. |
42 | Tennis, P.D., Leming, M.L. and Akers, D.J. (2004), Pervious Concrete Pavements, EB302 Portland Cement Association Skokie Illinois and National Ready Mixed Concrete Association, Silver, Spring, Maryland, U.S.A. |
43 | Saravanakumar, P. and Dhinakaran, G. (2013), "Durability characteristics of recycled aggregate concrete", Struct. Eng. Mech., 47(5), 701-711. DOI |
44 | Shah, A., Jan, I.U., Khan, R.U. and Qazi, E.U. (2013), "Experimental investigation on the use of recycled aggregates in producing concrete", Struct. Eng. Mech., 47(4), 545-557. DOI |
45 | Ferguson, B.K. (2005), Pervious Pavements, Taylor and Francis Group, New York, U.S.A. |
46 | Gesoglu, M., Guneyisi, E., Khoshnaw, G. and Ipek, S. (2014), "Investigating properties of pervious concretes containing waste tire rubbers", Constr. Build. Mater., 63, 206-213. DOI |
47 | Hesami, S., Ahmadi, S. and Nematzadeh, M. (2014), "Effects of rice husk ash and fiber on mechanical properties of pervious concrete pavement", Constr. Build. Mater., 53, 680-691. DOI |
48 | Gesoglu, M., Guneyisi, E., Khoshnaw, G. and Ipek, S. (2014), "Abrasion and freezing-thawing resistance of pervious concretes containing waste rubbers", Constr. Build. Mater., 73, 19-24. DOI |
49 | Guneyisi, E., Gesoglu, M., Kareem, Q. and Ipek, S. (2016), "Effect of different substitution of natural aggregate by recycled aggregate on performance characteristics of pervious concrete", Mater. Struct., 49(1), 521-536. DOI |