- ایران، وزارت راه و شهرسازی، معاونت امور فنی، دفتر امور فنی و تدوین معیارها، مرکز تحقیقات و آمـوزش، (1379)، "طراحـی و آرزیـابی ازمایشـگاهی مخلوطهـای اسـفالتی بـا اسـتخوان بنـدی سنگدانهای"، نشریه شماره 206، چاپ اول، سـازمان مـدیریت و برنامهریزی کشور، مرکز مدارک علمی و انتشارات.
-بهبهانی، ح.، زیاری. ح. ارجمندپور، ج.، (1392)، "مقایسه نتایج حاصل از آزمایش حساسیت رطوبتی در مخلوطهای آسفالتی با استخوان بندی سنگدانه ای (SMA) اصلاح شده با ترموپلاستیک الاستومرها"، پایان نامه کارشناسی ارشد، دانشکده عمران، دانشگاه علم و صنعت ایران، تهران.
- Ali N, Chan JS, Simms S, Bushman R, Bergan AT. (1996), “Mechanistic Evaluation of Fly Ash Asphalt Concrete Mixtures”. J Mater Civil Engineering;8(1), pp.19–25.
- Asi, I. M. (2006), "Laboratory comparison study for the use of stone matrix asphalt in hot weather climates", Journal of Construction and Building Materials, No. 20, Issue 10, pp. 982-989.
- A.H. Lav, M.A. Lav, A.B. Goktepe, (2006), “Analysis and design of a stabilized fly ash as pavement base material”, Fuel 85 (16) 2359–2370,
https://doi.org/ 10.1016/j.fuel.2006.05.017.
-Brown, E. R. and Manglorkar, H. (1993), "Evaluation of laboratory properties of SMA mixtures", National Center for Asphalt Technology Auburn University, Research Report, Sponsored by NAPA and the NAPA Education Foundation.
- Brown, E, et al, (1997), “Development of a Mixture Design Procedure for Stone Matrix Asphalt (SMA)”. Journal of the Association of Asphalt Paving Technologists, No.66:pp.1-30.
-Brown, E. R., & Cooley, L. A. (1999), “Designing of SMA for rut resistant pavements”, NCHRP Report 425. National Cooperative Highway Research program.
-Çelik, (2008), “Influence of fly ash on the properties of asphalt”, Pet. Sci. Technol. 26
(13), pp.1571–1582.
-Chandra, R. Choudhary, (2013), “Performance characteristics of bituminous concrete
with industrial wastes as filler”, J. Mater. Civil Engireeng, 11 (2013) pp.1666–1673.
- Churchill EV, Amirkhanian SN. (1999), “Coal Ash Utilization in Asphalt Concretemixtures”. J Mater Civil Eng 1999;11(4), pp.295–301.
- Huang, X. Shu, Q. Dong, J. Shen, (2010), “Laboratory evaluations of moisture susceptibility of hot-mix asphalt containing cementitious fillers, J. Mater. Civ. Eng. 22 (7) pp. 667–673.
-Karasahin, S. Terzi, (2007), “Use of marble waste dust in the mixture of asphalt
concrete as mineral filler”, Constr. Build. Mater. 21 (3), pp.616–620.
-National Cooperative Highway Research Program. (2002), “Simple Performance Test for Superpave Mix Design”, Report 465.
- Osinubi, J.E. Edeh, (2011), “Reconstituted coal ash stabilization of reclaimed asphalt pavement, in: In Geo-Frontiers Advances in Geotechnical Engineering, 2011, pp. 1172–1181.
- Pierce, L.M. (2000), "Stone matrix asphalt -SR-524, 64th Avenue West to I-5", State Pavement Engineer Washington State Department of Transportation, Post Construction Report, WA-RD 504.1.
- Putman, B. J. and Amirkhanian, S. N. (2004), "Utilization of waste fibers in stone matrix asphalt mixtures", Journal of Resources Conservation and Recycling, No. 42, pp. 265- 274.
- Ramme, B. W., Wen, H., Naik, T. R., and Kraus, R. (2005), “The Use of Fly Ash for in Situ Recycling of AC Pavements into Base Courses”. Geotechnical Applications for Transportation Infrastructure featuring the Marquette Interchange Project in Milwaukee, Wisconsin 181:10.
- State of Ohio Department of Transportation (1998), "Asphalt concrete with fibers", Supplemental Specification826.
-Sharma, S. Chandra, R. Choudhary, Characterization of fly ash bituminous concrete mixes, J. Mater. Civ. Eng. 22 (12) (2010), pp.1209–1216.
-Sobolev, I.F. Vivian, R. Saha, N.M. Wasiuddin, N.E. Saltibus, The effect of fly ash on the rheological properties of bituminous materials, Fuel 116 (2014), pp.471–477.
- Shivaprasad, F. Xiao, S. Amirkhanian, (2011), “Performance of warm-mix asphalt mixtures containing recycled coal ash and roofing shingles with moist aggregates for low-volume roads”, Transp. Res. Rec. 2205 pp.48–57.
-Sargin, M. Saltan, Yilmaz, N. Morova, S. Serin, S. Terzi, (2013), “Evaluation of rice
husk ash as filler in hot mix asphalt concrete, J. Constr. Build. Mater. 48, pp.390–397.