- نشریه شماره 234 (1390). آییننامه روسازی آسفالتی راههای ایران. سازمان مدیریت و برنامهریزی کشور.
- نشریه شماره 101 (1392). مشخصات فنی عمومی راه. سازمان مدیریت و برنامهریزی کشور..
- نشریه شماره 301 (1384). مشخصات فنی عمومی روسازی راهآهن. سازمان مدیریت و برنامهریزی کشور.
- استاندارد ملی شماره 302 (1394). ویژگیهای سنگدانههای بتن. سازمان ملی استاندارد ایران.
-Al-Mufti, R. L., & Fried, A. N. (2017). Improving the strength properties of recycled asphalt aggregate concrete. Construction and Building Materials, 149, 45-52.
-Arshad, M., & Ahmed, M. F. (2017). Potential use of reclaimed asphalt pavement and recycled concrete aggregate in base/subbase layers of flexible pavements. Construction and Building Materials, 151, 83-97.
- Butler, L., West, J. S., & Tighe, S. L. (2011). The effect of recycled concrete aggregate properties on the bond strength between RCA concrete and steel reinforcement. Cement and Concrete Research, 41(10), 1037-1049.
- De Juan, M. S., & Gutiérrez, P. A. (2009). Study on the influence of attached mortar content on the properties of recycled concrete aggregate. Construction and Building Materials, 23(2), 872-877.
-Debieb, F., Courard, L., Kenai, S., & Degeimbre, R. (2009). Roller compacted concrete with contaminated recycled aggregates. Construction and Building Materials, 23(11), 3382-3387.
- Le, T., Rémond, S., Le Saout, G., & Garcia-Diaz, E. (2016). Fresh behavior of mortar based on recycled sand–Influence of moisture condition. Construction and Building Materials, 106, 35-42.
-Pasandin, A. R., & Perez, I. (2015). Overview of bituminous mixtures made with recycled concrete Aggregates. Construction and Building Materials, 74, 151-161.
-Poon, C.S., Kou, S.C., Wan, H.W., & Etxeberria, M. (2009). Properties of concrete blocks prepared with low grade recycled aggregates. Waste Management, 29(8),
2369–2377.
-Poon, C.S., Shui Z.H., & Lam, L. (2004). Effect of microstructure of ITZ on compressive strength of concrete prepared with recycled aggregates. Construction and Building Materials 18(6), 461–468.
- Wang, L., Wang, J., Qian, X., Chen, P., Xu, Y., & Guo, J. (2017). An environmentally friendly method to improve the quality of recycled concrete aggregates. Construction and Building Materials, 144, 432-441.
-Ahmadi, M., Farzin, S., Hassani, A., & Motamedi, M. (2017). Mechanical properties of the concrete containing recycled fibers and aggregates. Construction and Building Materials, 144, 392-398.
-ASTM C 127 (2004). Standard test method for density, relative density (specific gravity), and absorption of coarse aggregate. American society for testing and materials.
-ASTM C 131/C 131 M. (2014). Standard test method for resistance to degradation of small-size coarse aggregate by abrasion and impact in the Los Angeles Machine. American society for testing and materials.
-ASTM C33 / C33M-16e1 (2016). Standard specification for concrete aggregates. American society for testing and materials
-BS 812.Part 110. (1990). Methods for determination of aggregate crushing value (ACV). British Standards Institution.
-BS 812.Part 112. (1990). Methods for determination of aggregate impact value (AIV). British Standards Institution.
-BS 882 (1992). Specification for aggregate from natural sources for concrete. British Standard Institution.
-BS EN 12620 (2008). Aggregates for concrete, British Standards Institution.
-De Brito, J., & Saikia, N. (2012). Recycled aggregate in concrete: use of industrial, construction and demolition waste. Springer.
-DIN 4226-100 (2002). Aggregates for mortar and concrete. Part 100: Recycled aggregates. DIN Standards.
-Limbachiya, M.C., Leelawat, T., & Dhir, R.K. (2000). Use of recycled concrete aggregate in high strength concrete. Materials and Structures, 33(9), 574–580.
-McGinnis, M. J., Davis, M., de la Rosa, A., Weldon, B. D., & Kurama, Y. C. (2017). Strength and stiffness of concrete with recycled concrete aggregates. Construction and Building Materials, 154, 258-269.
-Radević, A., Đureković, A., Zakić, D., & Mladenović, G. (2017). Effects of recycled concrete aggregate on stiffness and rutting resistance of asphalt concrete. Construction and Building Materials, 136, 386-393.
-Rao, M.C., Bhattacharyya, S.K., & Barai, S.V. (2011). Behaviour of recycled aggregate concrete under drop weight impact load. Construction and Building Materials, 25(1), 69–80.
-Sadati, S., & Khayat, K. H. (2016). Field performance of concrete pavement incorporating recycled concrete aggregate. Construction and Building Materials, 126, 691-700.
-Surya, M., VVL, K. R., & Lakshmy, P. (2013). Recycled aggregate concrete for transportation infrastructure. Procedia-Social and Behavioral Sciences, 104, 1158-1167.
-Tabsh, S. W., & Abdelfatah, A. S. (2009). Influence of recycled concrete aggregates on strength properties of concrete. Construction and Building Materials, 23(2), 1163-1167.
-Tam, V.W.Y., Wang, Y., & Tam, C.M. (2008). Assessing relationships among properties of demolished concrete recycled aggregate and recycled aggregate concrete using regression analysis. J. of Hazardous Materials, 152(2), 703–714.
-Topcu, I. B. (1997). Physical and mechanical properties of concretes produced with waste concrete. Cement and concrete research, 27(12), 1817-1823.