[1] Shrestha, K. K., & Shrestha, P. P. (2019). Change orders on road maintenance contracts: Causes and preventive measures. Journal of Legal Affairs and Dispute Resolution in Engineering and Construction, 11(3), 04519009.
[2] Al-Bayati, A. J., Ali, M., & Nnaji, C. (2023). Managing Work Zone Safety during Road Maintenance and Construction Activities: Challenges and Opportunities. Practice Periodical on Structural Design and Construction, 28(1), 04022068.
[3] Zhou, C., Zhang, M., Li, Y., Lu, J., & Chen, J. (2019). Influence of particle shape on aggregate mixture’s performance: DEM results. Road Materials and Pavement Design, 20(2), 399-413.
[4] Xie, J., Wu, S., Lin, J., Cai, J., Chen, Z., & Wei, W. (2012). Recycling of basic oxygen furnace slag in asphalt mixture: Material characterization & moisture damage investigation. Construction and Building Materials, 36, 467-474.
[5] Xie, J., Chen, J., Wu, S., Lin, J., & Wei, W. (2013). Performance characteristics of asphalt mixture with basic oxygen furnace slag. Construction and Building Materials, 38, 796-803.
[6] Asi, I. M. (2007). Performance evaluation of SUPERPAVE and Marshall asphalt mix designs to suite Jordan climatic and traffic conditions. Construction and Building Materials, 21(8), 1732-1740.
[7] Ahn, I. S., Cheng, L., Fox, P. J., Wright, J., Patenaude, S., & Fujii, B. (2015). Material properties of large-size tire derived aggregate for civil engineering applications. Journal of Materials in Civil Engineering, 27(9), 04014258.
[8] Ren, J., & Yin, C. (2022). Investigating mechanical characteristics of aggregate structure for road materials. International Journal of Pavement Engineering, 23(2), 372-386.
[9] Ahmadinejad, M., Ameri., M. (2010). Investigating the correlation between polishing value and other physical and mechanical properties of aggregates. Research Journal of Transportation, 7(1). (In Persian)
[10] Irandoost Hamdani, Sh., Memarian, M. R., Abrishmi Kisemi, H.R. (2014). The influence of the type of alluvial aggregates from south-west and south-east of Tehran on the durability of asphalt, 7th Iran Bitumen and Asphalt Conference, Tehran. (In Persian)
[11] Moghadas nezhad, F., Falahi, H., Azarhoosh, A. (2014). investigation of the effect of using waste concrete aggregates on the modulus of elasticity and volumetric properties of hot mix asphalt, 10th International Congress of Civil Engineering, Tabriz. (In Persian)
[12] Adresi, M. (2021). The effect of the type and grain size of fine-grained stone materials and different surface texture on the reliability of the wear resistance of the roller concrete surface. Amirkabir Civil Engineering Journal, 54(1), 343-362. (In Persian)
[13] Rezaei, L., and Qadim, A., Rezaei, P. (2015). Comparison of two viewpoints of civil engineers and geologists regarding asphalt mixture aggregates in Iran, 8th Iran Bitumen and Asphalt Conference, Tehran. (In Persian)
[14] Salek Bafghi, M., Khabeiri, M.M. (2016). Investigating the effects of granulation and shape of aggregates on the slip resistance of asphalt mixtures with aggregate skeleton. Research Journal of Transportation, 14(1), 218-236. (In Persian)
[15] Ahmed, H. Y., Hashem, M. D., Rashwan, N. K., & Abdalla, S. A. (2014). Investigation of aggregate particles shape on characteristics of hot mix asphalt. JES. Journal of Engineering Sciences, 42(6), 1349-1366.
[16] Liu, H., Hao, P., & Xu, J. (2017). Effects of nominal maximum aggregate size on the performance of stone matrix asphalt. Applied Sciences, 7(2), 126.
[17] Efti Dariani, M., Shikhabegam Qala, Arman. (2019). Technical justification of using the role of load characteristics and materials in increasing the fatigue life of asphalt pavement. Road. (In Persian)
[18] Khadadi, A., Heydari, M., Dehghani, Ahmad. (2019). Investigating the effect of anti-stripping additives and the type of aggregate materials on the resistance of asphalt mixtures against moisture damage (case study: Ardabil province). Transportation Engineering Quarterly, 10(4), 851-866. (In Persian)
[19] Fatahi, M., Khabeiri, M., Yarahamdi Bafghi, A. (2021). Investigating the effect of aggregate characteristics on the surface wear performance of rolled concrete pavement. Concrete Research, 14(2), 35-51. (In Persian)
[20] Salehi, R., Dehghan Benadaki, A. (2022). The effect of cornering coefficient of fine-grained stone materials on moisture sensitivity and fracture resistance of hot asphalt mixture. Transportation Infrastructure Engineering, 8(1), 95-118. (In Persian)
[21] Awed, A. M., Tarbay, E. W., El-Badawy, S. M., & Azam, A. M. (2022). Performance characteristics of asphalt mixtures with industrial waste/by-product materials as mineral fillers under static and cyclic loading. Road Materials and Pavement Design, 23(2), 335-357.
[22] ASTM, A. (2015). D6927-15 Standard Test Method for Marshall Stability and Flow of Asphalt Mixtures. ASTM International: West Conshohocken, PA, USA.
[23] ASTM E303 ,“ Standard Test Method for Measuring Surface Frictional Properties Using the British Pendulum Tester”.
[24] Fu, C., Fu, C., & Michael, M. (2015). Handbook of simulation optimization. Springer.
[25] Jabroti, A., Ghofrani, A. 2014, Introduction of Response Surface Methodology, Fourth National Conference of New Technologies of Chemistry and Chemical Engineering, Qochan. (In Persian)
[26] Mongomery, D. C. (2017). Montgomery: design and analysis of experiments. John Willy & Sons.
[27] Asphalt Paving Code of Iranian Roads, Publication 234, Country Management and Planning Organization, Tehran, Iran, 1390. (In Persian)
[28] Cao, W., Liu, S., & Feng, Z. (2013). Comparison of performance of stone matrix asphalt mixtures using basalt and limestone aggregates. Construction and Building Materials, 41, 474-479.
[29] Rezaei, A., Masad, E., & Chowdhury, A. (2011). Development of a model for asphalt pavement skid resistance based on aggregate characteristics and gradation. Journal of transportation engineering, 137(12), 863-873.