Some Cited Papers and Studies

Rubio M.C., Moreno F., Belmonte A., Menéndez A. 2010. Reuse of waste material from decorative quartz solid surfacing in the manufacture of hot bituminous mixes.Construction and Building Materials. Vol:24, pp.610-618.

Aruntaş H.Y. Gürü M., Dayı M., Tekin İ. 2010. Utilization of waste marble dust as an additive in cement production. Materials and Design. Vol:31, pp. 4039-4042.

Hebhoub H., Aoun H., Belachia M., Houari H.,Ghorbel E. 2011. Use of aggregates produced from granite quarry waste in asphalt pavements. Construction and Building Materials. Vol:25, pp.1167-1171.

Demirel B. 2010. The effect of the using waste marble dust as fine sand on the mechanical properties of the concrete. International Journal of the Physical Sciences Vol. 5(9), pp. 1372-1380.

Zaidi S.M., Rafeeqi S.F.A., Ali M.S., Khan A.M. 2008. Aggregate characterization- an importatnt step towards adressing construction issues in Pakistan. First International Conference on Construction In Developing Countries (ICCIDC–I) “Advancing and Integrating Construction Education, Research & Practice” Karachi, Pakistan.

Karakuş A. 2011. Investigating on possible use of Diyarbakir basalt waste in Stone Mastic Asphalt. Construction and Building Materials. Article in Press.

Modolo R., Benta A., Ferreira V.M., Machado L.M. 2010. Pulp and paper plant wastes valorisation in bituminous mixes. Waste Management. Vol:30, pp.685-696.

Binici H., Shahb T., Aksoganc O., Kaplan H. 2008. Durability of concrete made with granite and marble as recycle aggregates. Journal of Materials Processing Technology. Vol:208, pp.299-308.

Yılmaz M., Kök B.V. 2009. Effects of ferrochromium slag with neat polymer modified binders in hot bitiminous mix. Indian Journal of Engineering & Materials Sciences. Vol.16, pp.310-318.

Aukour F.J., Al-Qinna M.I.. 2008. Marble production and environmental constrains: Case study from Zarfa Govermorate, Jordan. Jordan Journal of Earth and Environmental Sciences. Vol.1(1), pp.11-21.

Karaca Z., Elçi H. 2008. Using dimension stone quarry wastes as concrete aggregate. International Conferance on Conctruction and Buildign Technology (ICCBT). Pp.45-16.

Gencel, O., Ozel, C., Koksal, F., Erdogmus, E., Martínez-Barrera, G., Brostow, W. 2012. Properties of concrete paving blocks made with waste marble. Journal of Cleaner Production. Vol:21(1) pp.62-70.

Newsletter. Texas Pavement Preservation Center. The University of Texas at Austin-Cockrell School of Engineering. Issiu 22 / Spring 2011.

Saplıoğlu M., Yüzer E., Aktaş B., Erişkin E. 2013. Investigation of the Skid Resistance at Accident Occured at Urban Intersections. Journal of Traffic and Transportating Engineering, 1(1), 19-29.

Aktaş B., Karaşahin M., Tığdemir M. 2013. Developing A Macrotexture Prediction Model For Chip Seals, Construction and Building Materials , vol.41, pp.784-789. 

Abd Elmoaty, A.E.M. 2013. “Mechanical properties and corrosion resistance of concrete modified with granite dust.” Construction and Building Materials. volume 47, issue , year 2013, pp. 743 - 752.

Mhlongo S.M. 2013. Recycling of Construction Waste for Roads Rehabilitation. M.Sc. Thesis, Tshwane University of Technology, Department of Civil Engineering. Pretoria, South Africa.

PourtahmasbA., De Brito, J., Rosa, A., Pedro, D. 2014. Durability performance of concrete incorporating coarse aggregates from marble industry waste Journal of Cleaner Production volume 65, issue 2014, pp. 389 - 39.

Arulrajah A., M.M.Disfani, S. Horpibulsuk, C. 2014. Suksiripattanapong, N. Prongmanee. 2014.  Physical properties and shear strength responses of recycled construction and demolition materials in unbound pavement base/subbase applications. Construction and Building Materials. 58, 245-257.


Phetchuay, C., Horpibulsuk, S., Suksiripattanapong, C., Chinkulkijniwat, A., Arulrajah, A., Disfani, M.M. 2014. Calcium carbide residue: Alkaline activator for clay-fly ash geopolymer . Construction and Building Materials volume 69, issue , y pp. 285 - 294

Pourtahmasb MS. 2014. Utilization of Recycled Concrete Aggregates in Stone Mastic Asphalt Mixtures. Advances in Material Science and Engineering.

Lucena LCFL, Juca JFT, Soares JB. 2014. Use of wastewater sludge for base and subbase of road pavements. Transportation Research Part D Transport and Environment.

Phetchuay, C., Horpibulsuk, S., Suksiripattanapong, C., Chinkulkijniwat, A., Arulrajah, A., Disfani, M.M. 2014. Calcium carbide residue: Alkaline activator for clay-fly ash geopolymer. onstruction and Building Materials volume 69, issue 2014, pp. 285 - 294.

Gómez-Meijide, B., Pérez, I., Airey, G., Thom, N. 2015. Stiffness of cold asphalt mixtures with recycled aggregates from construction and demolition waste. Construction and Building Materials. volume 77, issue , year 2015, pp. 168 – 178.

Arulrajah A., Disfani M.M., Maghoolpilehrood F., Horpibulsuk, S., Udonchai A., Imteaz M., Du Y-J.2015. Engineering and environmental properties of foamed recycled glass as a lighweight engineering material. Journal of Cleaner Production.369-375.

Bai S.-W., Zhang J.-S., Wang Z. 2015. A methodology for evaluating cleaner production in the stone processing industry: Case study of a Shandong stone processing firm. Journal of Cleaner Production. Vol:102, 461-476.DOI: 10.1016/j.jclepro.2015.04.139.

Pratico F.G., Vaiana R., Iuele T. 2015. Macrotexture modelling and experimental validation for pavement surface treatmenst.Construction and Building Materials. 95, 658-666. 

Saygılı, A.2015. Use of Waste Marble Dust For Stabılızatıon of Clayey Soil. Materials Sciencei 21(4), 601-606.

Suksiripattanapong, C., Horpibulsuk, S., Boongrasan, S., Udomchai, A., Chinkulkijniwat, A., Arulrajah, A. 2015. Unit weight, strength and microstructure of a water treatment sludge-fly ash lightweight cellular geopolymer. Construction and Building Materials. 94, 807-816.

Ercikdi, B., Külekci, G., Yilmaz, T. 2015. Utilization of granulated marble wastes and waste bricks as mineral admixture in cemented paste backfill of sulphide-rich tailings .Construction and Building Materials. 93, 573-58

Benediktsson, S. 2015. Effects of Particle Shape on Mechanical Properties of Aggregates. M.Sc. Thesis. Norwegian University of Science and Technology. Department of Geology and Mineral Resources Engineering.  NTNU-Trondheim.

Huajian L., Fali H., Guanzhi C. 2016. Effect of granite dust on mechanical and some durability properties of manufactured sand concrete. Construction and Building Materials. 109, 41-46.

Bai S., Zhang J., Wang Z. 2016. Selection of a sustainable technology for cutting granite block into slabs. Journal of Cleaner Production. 2278-2291. 

Rawls M., Im Jeong H., Castorena C. 2016. Tack Lifter for in situ Measurement of Effective Emulsion Application Rates. 
TRANSPORTATION RESEARCH RECORD. 2250, 80-88. 


Ozcelik M. 2016. Environmental Pollution and its Effects on Water Sources from Marble Quarries in Western Turkey .Environ Earth Sci. 75, 796p.

Cadima De Silva A.F., 2016.Resíduos de Mármore e Resíduos de Construção e Demolição no Cimento. MESTRADO INTEGRADO EM ENGENHARIA CIVIL, DEPARTAMENTO DE ENGENHARIA CIVIL, FACULDADE DE ENGENHARIA DA UNIVERSIDADE DO PORTO. Porto, PORTUGAL.

Shams Ul Khaliq, Khan Shahzada, Bashir Alam, Fawad Bilal, Mushtaq Zeb, Faizan AkbarMarble Powder’s Effect on Permeability and Mechanical Properties of Concrete. World Academy of Science, Engineering and Technology International Journal of Civil, Environmental, Structural, Construction and Architectural Engineering Vol:10, No:4, 2016 . 522-527. 

Arel H.Ş. 2016. Re-Use of Waste Marble in Producing Green Concrete. International Journal of Civil, Environmental, Structural, Construction and Architectural Engineering Vol:10, No:11, 2016, 1336-1345.

Sakevalla Vinay Babu, Paintee Pavithra, J. Ushasree  2016. Performance of compressive strength of limestone aggregate concrete with plastic fibre.  Journal of Technological Advances and Scientific Research. Vol. 2/ Issue 04/ 198-200. 

Mojtaba Yari, Raheb Bagherpour, Najmeddin Almasi. An Approach to the Evaluation and Classification of Dimensional Stone Quarries with an Emphasis on Safety Parameters. The Mining-Geology-Petroleum Engineering Bulletin 31(3), 15-26. 

Giovanna Antonella Dino*,a, Piergiorgio Rossetti a , Giulio Biglia a , Frédéric Coulon b , Diogo Gomes b , Stuart Wagland b , Sami Luste c , Heikki Särkkä c , Csaba Ver d , Marco Delafeld e , Antonietta Pizza. SMART GROUND Project: SMART data collection and inteGRation platform to enhance availability and accessibility of data and information in the EU territory on SecoNDary Raw Materials. Energy Procedia. 97 (2016) 15-22. doi: 10.1016/j.egypro.2016.10.010. 

Gorikapudi Chandini, Perla. Karunakar. 2016.  Sustainable concrete using ceramic waste and marble dust. International Journal for Technological Research in Engineering. 4(2), 275-281. 

Barani K., Esmaili H. 2016. Production of artificial stone slabs using waste granite and marble stone sludge samples.Journal of Mining and Environment. 7(1), 135-141. DOI: 10.22044/jme.2016.491.

Mohamad Noufal & Zena Maalla. 2016. Reuse Waste Plastic and Concrete Aggregate in Production of Hot Mix Asphalt. Imperial Journal of Interdisciplinary Research (IJIR). 2(7), 2016, 1442-1446. 

Oluwasola E.A., Hainin M.R. 2016. Evaluation of Performance Characteristics of Stone Mastic Asphalt Incorporating Industrial Waste. Journal of Materials in Civil Engineering. 28(12). http://dx.doi.org/10.1061/(ASCE)MT.1943-5533.0001595#sthash.pYOUqCLX.dpuf.

Skaf M., Ortega-Lopez V., Fuente-Slonso, Santamaria A., Manso J.M. 2016. Ladle furnace slag in asphalt mixes. Construction and Building Materials. 122; 488-495. http://dx.doi.org/10.1016/j.conbuildmat.2016.06.085



Mehta, N., Dino, G.A., Ajmone-Marsan, F., Lasagna, M., Romè, C., De Luca, D.A.
2018. Extractive waste management: A risk analysis approach. Science of the Total Environment. pp. 900 - 912 


Ruiz Sánchez, Antonio, 2021. Reutilización de lodos carbonatados para la preparación de cementos ecoeficientes y otras aplicaciones. University of Granada, Universidad de Granada. Programa de Doctorado en Ingeniería Civil Ph.D Thesis. Granada/Spain.

Fahad S., Adnan M., Saud S., Nie L. Amanullah. 2023. Climate Change and Ecosystems. Challenges to Sustainable Development. CRC Press. Boca Raton, FL. https://doi.org/10.1201/9781003286400

You Z.2020. Is Seal Coating Counterproductive or Not? Research Project Final Report. Mn DOT. Department of Civil and Environmental Engineering, Michigan Technological University, US. https://rosap.ntl.bts.gov/view/dot/57608


Paris, J. M., Roessler, J. G., Ferraro, C. C., DeFord, H. D., & Townsend, T. G. (2016). A review of waste products utilized as supplements to Portland cement in concrete. Journal of Cleaner Production121, 1-18.

Hafezzadeh, R., Autelitano, F., & Giuliani, F. (2021). Asphalt-based cold patches for repairing road potholes–An overview. Construction and building materials306, 124870.

Liu, H., Zhang, Z., Zhu, Y., Sun, J., Wang, L., Huang, T., & Chen, L. (2022). Modification of asphalt using polyurethanes synthesized with different isocyanates. Construction and Building Materials327, 126959.

Song, R., Sha, A., Shi, K., Li, J., Li, X., & Zhang, F. (2021). Polyphosphoric acid and plasticizer modified asphalt: Rheological properties and modification mechanism. Construction and Building Materials309, 125158.


Arulrajah, A., Disfani, M. M., Horpibulsuk, S., Suksiripattanapong, C., & Prongmanee, N. (2014). Physical properties and shear strength responses of recycled construction and demolition materials in unbound pavement base/subbase applications. Construction and Building Materials58, 245-257.

Uysal, M., & Sumer, M. (2011). Performance of self-compacting concrete containing different mineral admixtures. Construction and Building materials25(11), 4112-4120.

Arel, H. Ş. (2016). Recyclability of waste marble in concrete production. Journal of Cleaner Production131, 179-188.

Aruntaş, H. Y., Gürü, M., Dayı, M., & Tekin, İ. (2010). Utilization of waste marble dust as an additive in cement production. Materials & Design31(8), 4039-4042.

Luo, X., Wang, F., Bhandari, S., Wang, N., & Qiu, X. (2021). Effectiveness evaluation and influencing factor analysis of pavement seal coat treatments using random forests. Construction and Building Materials282, 122688.

Abedi, M., Roshan, M. J., Gulisano, F., Shayanfar, J., Adresi, M., Fangueiro, R., & Correia, A. G. (2024). An advanced cement-based geocomposite with autonomous sensing and heating capabilities for enhanced intelligent transportation infrastructure. Construction and Building Materials411, 134577.

Wang, Y., Chen, X., Lu, H., Xiao, R., Hu, W., Jiang, X., ... & Huang, B. (2024). Laboratory investigation on electrical and mechanical properties of asphalt mixtures for potential snow-melting and deicing pavements. Construction and Building Materials413, 134901.

Chen, J., Parsi, P. K., Marklund, P., Björling, M., & Shi, Y. (2024). Graphene-enhanced, wear-resistant, and thermal-conductive, anti-/de-icing gelcoat composite coating. Advanced Composites and Hybrid Materials7(1), 9.

Wang, T., Faßbender, S., Dong, W., Schulze, C., Oeser, M., & Liu, P. (2023). Sensitive surface layer: A review on conductive and piezoresistive pavement materials with carbon-based additives. Construction and Building Materials387,131611.

Abedi, M., Sanivada, U. K., Mirian, S. A., Hassanshahi, O., Al-Jabri, K., Correia, A. G., ... & Fangueiro, R. (2023). A self-sensing and self-heating planar braided composite for smart civil infrastructures reinforcement. Construction and Building Materials387, 131617.



Ding, S., Dong, S., Wang, X., Ding, S., Han, B., & Ou, J. (2023). Self-heating ultra-high performance concrete with stainless steel wires for active deicing and snow-melting of transportation infrastructures. Cement and Concrete Composites138, 105005.

Peng, C., Yang, D., You, Z., Xu, F., Guan, P., Ruan, D., ... & Ye, Z. (2023). Preparation and performance evaluation of the plant antifreeze protein (PAFP) modified emulsified asphalt coating. Construction and Building Materials408, 133619.

Huang, G., Zhang, J., Wang, Q., Song, C., Guo, F., He, H., ... & Falchetto, A. C. (2023). Preparation, performance evaluation and de-icing longevity prediction of novel de-icing fiber permeable asphalt mixture. Construction and Building Materials404, 133198.

Han, S., Wei, H., Jiang, B., & Wang, H. (2023). Active Ice Melting and Sensitivity Analysis of Conductive Rubber Composites in Pavements Under Complex Environments. Arabian Journal for Science and Engineering48(4), 5371-5382.

Omar, H. A., Yusoff, N. I. M., Mubaraki, M., & Ceylan, H. (2020). Effects of moisture damage on asphalt mixtures. Journal of Traffic and Transportation Engineering (English Edition)7(5), 600-628.

Franesqui, M. A., Rodríguez-Alloza, A. M., Yepes, J., & García-González, C. (2023). Cleaner technologies for asphalt mixtures combining reuse of residual aggregates, waste crumb rubber and warm mix asphalt additive. Scientific Reports13(1),8153.

Wang, C., Liu, H., Wu, D., & Liu, X. (2023). Engineering and environmental evaluation of red mud amended volcanic ash as a sustainable subgrade material. Journal of Cleaner Production393, 136353.

Alarcon Balabarca, A. Z. (2023). Diseño conceptual de materiales asfálticos multifuncionales (Master's thesis, Universitat Politècnica de Catalunya).

Ozcelik, M. (2023). Environmental effects of marble quarry operations in Burdur Lake Basin (Burdur-Turkey). Journal of Degraded & Mining Lands Management10(3).

Bhandari, S. (2020). Evaluation of effectiveness of Seal Coat Treatment using field data from Long-Term Pavement Performance Program.

Gerber, D. (2022). The effects of temperature and traffic on stone orientation of seals with different binders (Doctoral dissertation, Stellenbosch: Stellenbosch University).

Luo, X., Wang, F., Gong, H., Tao, J., Qiu, X., & Wang, N. (2021). Effectiveness Evaluation of Preventive Maintenance Treatments on Asphalt Pavement Performance Using LTPP Data. International Journal of Pavement Research and Technology, 1-16.

Brenes-Calderón, A., & Vargas-Nordcbeck, A. (2023). Use of chip seal treatments to mitigate pavement roughness progression in cold regions. International Journal of Pavement Engineering24(1), 2241963.

Alnadish, A. M., Singh, N. S. S., & Alawag, A. M. (2023). Applications of Synthetic, Natural, and Waste Fibers in Asphalt Mixtures: A Citation-Based Review. Polymers15(4), 1004.

Abedi, M., Roshan, M. J., Gulisano, F., Shayanfar, J., Adresi, M., Fangueiro, R., & Correia, A. G. (2024). An advanced cement-based geocomposite with autonomous sensing and heating capabilities for enhanced intelligent transportation infrastructure. Construction and Building Materials411, 134577.

Rawls, M. L. (2016). In-Situ Determination of Emulsion Application Rates for Tack Coats and Surface Treatments.





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