A REVIEW ARTICLE ON MECHANICAL PROPERTIES OF POROUS ASPHALT MIXTURE
Keywords:
Modified Asphalt, Open-graded mixture, Porous Asphalt, Permeability, Environmental Advantage, Safety.
Abstract
Millions of kilometers of roads are constructed using asphalt mixtures, therefore; the environmental, safety, and economic factors are influenced by the materials and the methods used to prepare and implement such projects. The recent trend has focused on porous asphalt to search for alternative methods to the traditional method since the design and maintenance of asphalt mixtures are influential from an economic viewpoint. Moreover, the presence of water and a drainage system in the pavement is one of the elements that influences the composition of the pavement mixture and this has been evaluated through techniques adopted to design porous asphalt mixtures. This study reviews aspects of the materials, methods, and characteristics of porous pavement research articles to pinpoint the critical factors for understanding porous asphalt and its properties. This will make it possible to create techniques to optimize the performance of the mixture. This review article will conclude with ideas for new design strategies that use different materials and modifiers, as well as new methodologies for using porous asphalt in different classes of road pavements for better characteristics.
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References
ADIBA, A., SADI, R. & RIYAD, R. H. Effect of Waste Bones and GGBS as Modifier for Bitumen in Construction of Flexible Pavement. International Conference on Civil Engineering for Sustainable Development, 2020. 07-09.
AFONSO, M. L., DINIS-ALMEIDA, M. & FAEL, C. S. 2017. Study of the porous asphalt performance with cellulosic fibres. Construction and Building Materials, 135, 104-111.
AHMADINIA, E., ZARGAR, M., KARIM, M. R., ABDELAZIZ, M. & SHAFIGH, P. 2011. Using waste plastic bottles as additive for stone mastic asphalt. Materials & Design, 32, 4844-4849.
AHMED, M. B., ABED, A. H. & AL-BADRAN, Y. M. H. 2019. Evaluation of Moisture Susceptibility for Modified Open Graded Friction Course Mixes Used Styrene Butadiene Styrene. Al-Nahrain Journal for Engineering Sciences, 22.
AHMED, M. B., ABED, A. H. & AL-BADRAN, Y. M. H. 2020. Enhancement of porous asphalt mixture for resisting environmental conditions using modified asphalt. IOP Conference Series: Materials Science and Engineering, 737, 012118.
AL-BUSALTAN, S., AL-YASARI, R., AL-JAWAD, O. & SAGHAFI, B. 2020. Durability assessment of open-graded friction course using a sustainable polymer. International Journal of Pavement Research and Technology, 13, 645-653.
AL-HDABI, A., AL-SAHAF, N. A., MAHDI, L. A., YESAR, Z., MOEID, H. & HASSAN, M. Laboratory investigation on the properties of asphalt concrete mixture with GGBFS as filler. IOP Conference Series: Materials Science and Engineering, 2019. IOP Publishing, 012063.
AL-JUMAILI, M. A. H. 2016. Laboratory evaluation of modified porous asphalt mixtures. Appl. Res. J, 8, 2-3.
AL-KAISSI, Z. A. & MASHKOOR, O. G. 2016. Durability of porous asphalt pavement. Journal of Engineering and Sustainable Development, 20, 53-70.
ALDERSON, A. 1996. The Design of open graded asphalt. Australian Asphalt Pavement Association.
ALI, M. Q. & KHOSHNAW, G. J. 2020. Influences of polymer modifiers on Porous Hot Asphalt Mixture Property and Durability. Polytechnic Journal, 10, 126-131.
ALLEN COOLEY JR, L., RAY BROWN, E. & WATSON, D. E. 2000. Evaluation of open-graded friction course mixtures containing cellulose fibers. Transportation Research Record, 1723, 19-25.
ALVAREZ, A. E., MARTIN, A. E., ESTAKHRI, C. K., BUTTON, J. W., GLOVER, C. J. & JUNG, S. H. 2006. Synthesis of current practice on the design, construction, and maintenance of porous friction courses.
AMERI, M. & ESFAHANI, M. A. 2008. Evaluation and performance of hydrated lime and limestone powder in porous asphalt. Road Materials and Pavement Design, 9, 651-664.
ANDRÉS-VALERI, V. C. 1991. Report on the 1990 European Asphalt Study Tour.
ANDRÉS-VALERI, V. C., RODRIGUEZ-TORRES, J., CALZADA-PEREZ, M. A. & RODRIGUEZ-HERNANDEZ, J. 2018. Exploratory study of porous asphalt mixtures with additions of reclaimed tetra pak material. Construction and Building Materials, 160, 233-239.
ARSHAD, A., AHMAD, J. & MASRI, K. 2019. Rutting resistance of nanosilica modified porous asphalt. International Journal of Civil Engineering and Technology, 10, 2274-2284.
BALDI-SEVILLA, A., MONTERO, M. L., AGUIAR, J. P. & LORÍA, L. G. 2016. Influence of nanosilica and diatomite on the physicochemical and mechanical properties of binder at unaged and oxidized conditions. Construction and Building Materials, 127, 176-182.
BROWN, E. R. 2004. Relationship of air voids, lift thickness, and permeability in hot mix asphalt pavements, Transportation Research Board.
CAMOMILLA, G., MALGARINI, M. & GERVASIO, S. 1990. Sound absorption and winter performance of porous asphalt pavement. Transportation Research Record, 1265, 1-8.
CHEN, J.-S. & LIN, K.-Y. 2005. Mechanism and behavior of bitumen strength reinforcement using fibers. Journal of materials science, 40, 87-95.
CHEN, J.-S., SUN, Y.-C., LIAO, M.-C. & HUANG, C.-C. 2012. Effect of binder types on engineering properties and performance of porous asphalt concrete. Transportation research record, 2293, 55-62.
CHEN, J.-S., SUN, Y.-C., LIAO, M.-C., HUANG, C.-C. & TSOU, K.-W. 2013. Evaluation of permeable friction course mixes with various binders and additives. Journal of materials in civil engineering, 25, 573-579.
CHEN, M. & WONG, Y. 2015. Porous asphalt mixture with a combination of solid waste aggregates. Journal of Materials in Civil Engineering, 27, 04014194.
CHEN, M. J. & WONG, Y. D. 2013. Porous asphalt mixture with 100% recycled concrete aggregate. Road materials and pavement design, 14, 921-932.
CHENG, Y., CHAI, C., LIANG, C. & CHEN, Y. 2019. Mechanical Performance of Warm-Mixed Porous Asphalt Mixture with Steel Slag and Crumb-Rubber–SBS Modified Bitumen for Seasonal Frozen Regions. Materials, 12, 857.
CHU, L., TANG, B. & FWA, T. 2018. Evaluation of functional characteristics of laboratory mix design of porous pavement materials. Construction and Building Materials, 191, 281-289.
DAINES, M. 1992. Trials of porous asphalt and rolled asphalt on the A38 at Burton. TRL RESEARCH REPORT.
DECOENE, Y. 1990. Contribution of cellulose fibers to the performance of porous asphalts. Transportation Research Record, 1265, 82-86.
EISENBERG, B., LINDOW, K. C. & SMITH, D. R. Permeable pavements. 2015. American Society of Civil Engineers Reston, VA.
ENIEB, M. & DIAB, A. 2017. Characteristics of asphalt binder and mixture containing nanosilica. International Journal of Pavement Research and Technology, 10, 148-157.
ENIEB, M., DIAB, A. & YANG, X. 2021. Short-and long-term properties of glass fiber reinforced asphalt mixtures. International Journal of Pavement Engineering, 22, 64-76.
ESKANDARSEFAT, S., DONDI, G. & SANGIORGI, C. 2019. Recycled and rubberized SMA modified mixtures: A comparison between polymer modified bitumen and modified fibres. Construction and Building Materials, 202, 681-691.
EZZAT, H., EL-BADAWY, S., GABR, A., ZAKI, E.-S. I. & BREAKAH, T. 2016. Evaluation of Asphalt Binders Modified with Nanoclay and Nanosilica. Procedia Engineering, 143, 1260-1267.
FAGHRI, M., SADD, M. H. & GONCALVES, E. 2002. Performance improvement of open-graded asphalt mixes. University of Rhode Island Transportation Center Report URI-TC Project, 536144.
FANG, C., YU, X., YU, R., LIU, P. & QIAO, X. 2016. Preparation and properties of isocyanate and nano particles composite modified asphalt. Construction and Building Materials, 119, 113-118.
FRIGIO, F. & CANESTRARI, F. 2018. Characterisation of warm recycled porous asphalt mixtures prepared with different WMA additives. European Journal of Environmental and Civil Engineering, 22, 82-98.
GHASEMI, M., MARANDI, S. M., TAHMOORESI, M., KAMALI, J. & TAHERZADE, R. 2012. Modification of stone matrix asphalt with nano-SiO2. Journal of Basic and Applied Scientific Research, 2, 1338-1344.
GUPTA, A., RODRIGUEZ-HERNANDEZ, J. & CASTRO-FRESNO, D. 2019. Incorporation of additives and fibers in porous asphalt mixtures: A review. Materials, 12, 3156.
HAMEDI, G. H. & MOGHADAS NEJAD, F. 2015. Using energy parameters based on the surface free energy concept to evaluate the moisture susceptibility of hot mix asphalt. Road Materials and Pavement Design, 16, 239-255.
HAMZAH, M., SAMAT, M., JOON, K., MUNIANDY, R., TECH, D. & BANGWHA2-DONG, G.-K. Modification of aggregate grading for porous asphalt. Proceedings of the 3rd Eurasphaly and Eurobotume Congress, Vienna, Austria, 2004.
HASHIM, T. M., ALI, A. H., AL-KHAFAJI, R., AL-KHAZRAJI, A. A. & DHARB, F. R. A. Z. A Comparison Study between Porous and Conventional Asphalt Concrete Mixtures. IOP Conference Series: Materials Science and Engineering, 2021. IOP Publishing, 012041.
HASSAN, A. F., ABDELGHNY, A. M., ELHADIDY, H. & YOUSSEF, A. M. 2014. Synthesis and characterization of high surface area nanosilica from rice husk ash by surfactant-free sol–gel method. Journal of Sol-Gel Science and Technology, 69, 465-472.
HEIN, D., STRECKER, E., PORESKY, A., ROSEEN, R. & VENNER, M. 2013. NCHRP 25-25/Task 82: Permeable Shoulders with Stone Reservoirs. Transportation Research Board of the National Academies. October.
HU, X., DAI, K. & PAN, P. 2019. Investigation of engineering properties and filtration characteristics of porous asphalt concrete containing activated carbon. Journal of Cleaner Production, 209, 1484-1493.
HUANG, S. & LIANG, C. 2018. A conceptual study on the formulation of a permeable reactive pavement with activated carbon additives for controlling the fate of non-point source environmental organic contaminants. Chemosphere, 193, 438-446.
HUBER, G. 2000. Performance survey on open-graded friction course mixes, Transportation Research Board.
IWATA, H., WATANABE, T. & SAITO, T. Study on the performance of porous asphalt pavement on winter road surface conditions. New Challenges for Winter Road Service. XIth International Winter Road CongressWorld Road Association (PIARC), 2002.
JACOBS, F. 1982. M40 high wycombe bypass: results of a bituminous surface texture experiment.
JALAL MADHAT KHOWSHNAW, G. & MUSTAFA SALIH ZEBARI, S. 2019. Evaluation and performance of fly ash in porous asphalt by using two sources of asphalt binder. Eurasian Journal of Science and Engineering, 4, 122-134.
JAMES, T. M. 2016. Development of a Performance-Based Mix Design for Porous Friction Course.
KAMADA, O. & YAMADA, M. 2002. Utilization of waste plastics in asphalt mixtures. Memoirs of the Faculty of Engineering, Osaka City University, 43, 111-118.
KANDHAL, P. S. PE, Associate Director National Center for Asphalt Technology (2002) Design, Construction, and Maintenance of Open-Graded Asphalt Friction Courses. URL: http://driveasphalt. org/assets/content/resources/IS-115_Open_Graded_Asphalt_Friction_Courses. pdf(Last accessed: 20.04. 2020)[in English].
KANDHAL, P. S. 2002. Design, construction, and maintenance of open-graded asphalt friction courses, National Asphalt Pavement Association.
KANDHAL, P. S. & MALLICK, R. B. 1998. Open graded friction course: state of the practice, Transportation Research Board, National Research Council Washington, DC, USA.
KANDHAL, P. S. & MALLICK, R. B. 1999. Design of New-Generation Open-Graded Friction Courses (Revised). National Center for Asphalt Technology.
KATMAN, H. Y., KARIM, M. R., MAHREZ, A. & IBRAHIM, M. R. Performance of wet mix rubberised porous asphalt. Proceedings of the Eastern Asia Society for Transportation Studies, 2005. Citeseer, 695-708.
KHALID, H. & WALSH, C. Relating mix and binder fundamental properties of aged porous asphalt materials. PROCEEDINGS OF THE PAPERS SUBMITTED FOR REVIEW AT 2ND EURASPHALT AND EUROBITUME CONGRESS, HELD 20-22 SEPTEMBER 2000, BARCELONA, SPAIN. BOOK 1-SESSION 1, 2000.
KREZEM, M. 2019. Producing Porous Asphalt in Palestine According to ASTM D7064. Journal of Engineering Research and Technology, 6.
LEE, H. S., CARVAJAL, M., HOLZSCHUHER, C. & CHOUBANE, B. 2021. Florida Department of Transportation’s Enhanced Hydroplaning Prediction Tool. Transportation Research Record, 2675, 340-352.
LEFEBVRE, ASSOCIATION, P. W. R. & ROADS, P. T. C. O. F. 1993. Les enrobes drainants : Porous asphalt / by G. Lefebvre, Permanent International Association of Road Congresses.
LEFEBVRE, G. 1993. Porous asphalt.
LEKHAZ, D., REDDY, S. S., MOHAN, M. & NAIDU, M. 2016. A Study on Bituminous Concrete Mix with Cement, GGBS, Brick Dust as a Filler. International Journal of Engineering Science, 2771.
LI, R., XIAO, F., AMIRKHANIAN, S., YOU, Z. & HUANG, J. 2017. Developments of nano materials and technologies on asphalt materials–A review. Construction and Building Materials, 143, 633-648.
LIU, Q. & CAO, D. 2009. Research on material composition and performance of porous asphalt pavement. Journal of Materials in Civil Engineering, 21, 135-140.
LYONS, K. R. & PUTMAN, B. J. 2013. Laboratory evaluation of stabilizing methods for porous asphalt mixtures. Construction and Building Materials, 49, 772-780.
MA, X., LI, Q., CUI, Y.-C. & NI, A.-Q. 2018. Performance of porous asphalt mixture with various additives. International Journal of Pavement Engineering, 19, 355-361.
MAJEED, G. A. W. & SARSAM, S. I. 2021. Assessing the Marshall Properties of Porous Asphalt Concrete. Journal of Engineering, 27, 113-129.
MANSOUR, T. N. & PUTMAN, B. J. 2013. Influence of aggregate gradation on the performance properties of porous asphalt mixtures. Journal of Materials in Civil Engineering, 25, 281-288.
MARANDI, S. M., GHASEMI, M. & SHAHIRI, J. 2017. Effects of partial substitution of styrene-butadiene-styrene with granulated blast-furnace slag on the strength properties of porous asphalt. International Journal of Engineering, 30, 40-47.
MARCHIONI, M. & BECCIU, G. 2015. Experimental results on permeable pavements in urban areas: a synthetic review. International Journal of Sustainable Development and Planning, 10, 806-817.
MASHAAN, N., CHEGENIZADEH, A. & NIKRAZ, H. 2021. Laboratory Properties of Waste PET Plastic-Modified Asphalt Mixes. Recycling, 6, 49.
MASRI, K., AWANG, H., JAYA, R. P., ALI, M., RAMLI, N. & ARSHAD, A. Moisture susceptibility of porous asphalt mixture with Nano silica modified asphalt binder. IOP Conference Series: Earth and Environmental Science, 2019. IOP Publishing, 012028.
MOHAMMED, H. H. 2021. Using of Open-Graded Bituminous Mixtures in Iraq. Turkish Journal of Computer and Mathematics Education (TURCOMAT), 12, 2443-2457.
MOORE, L. M., HICKS, R. G. & ROGGE, D. F. 2001. Design, Construction, and Maintenance Guidelines for Porous Asphalt Pavements. Transportation Research Record, 1778, 91-99.
MUNGATHIA, T., GARIY, Z. & NYOMBOI, T. 2021. Analysis of Bitumen Draindown Characteristics of Sisal-plastic Modified Open Graded Asphalt. Journal of Agriculture, Science and Technology, 20, 94-106.
NASSAR, A. I., MOHAMMED, M. K., THOM, N. & PARRY, T. 2016. Mechanical, durability and microstructure properties of Cold Asphalt Emulsion Mixtures with different types of filler. Construction and Building Materials, 114, 352-363.
NAZARI, H., NADERI, K. & MOGHADAS NEJAD, F. 2018. Improving aging resistance and fatigue performance of asphalt binders using inorganic nanoparticles. Construction and Building Materials, 170, 591-602.
NAZARINASAB, A., GHASEMI, M. & MARANDI, S. M. 2018. Performance improvement of porous asphalt mixtures using crumb rubber and steel slag powder. International Journal of Transportation Engineering, 6, 99-110.
NICHOLLS, C. 1998a. Asphalt surfacings a guide to asphalt surfacings and treatments used for the surface course of road pavements, London ;, E & FN Spon.
NICHOLLS, J. 1999. Review of UK porous asphalt trials, Thomas Telford.
NICHOLLS, J. C. 1998b. Asphalt surfacings, CRC Press.
PASETTO, M. Porous asphalt concretes with added microfibres. PROCEEDINGS OF THE PAPERS SUBMITTED FOR REVIEW AT 2ND EURASPHALT AND EUROBITUME CONGRESS, HELD 20-22 SEPTEMBER 2000, BARCELONA, SPAIN. BOOK 2-SESSION 2, 2000.
POTTER, J. & HALLIDAY, A. 1981. The Contribution of Pervious Macadam Surfacing to the Structural Performance of Roads.
POULIKAKOS, L., GUBLER, R., PARTL, M., PITTET, M., ARNAUD, L., JUNOD, A., DUMONT, A.-G. & SIMOND, E. 2006. Mechanical properties of porous asphalt, recommendations for standardization.
PRADOTO, R., PURI, E., HADINATA, T. & RAHMAN, Q. D. Improving strength of porous asphalt: a nano material experimental approach. IOP Conference Series: Materials Science and Engineering, 2020. IOP Publishing, 012044.
PUNITH, V., SURESHA, S., VEERARAGAVAN, A., RAJU, S. & BOSE, S. Characterization of polymer and fiber-modified porous asphalt mixtures. Proceedings of the 83rd Annual Meeting of Transportation Research Board, 2004.
PUTMAN, B. J. & KLINE, L. C. 2012. Comparison of mix design methods for porous asphalt mixtures. Journal of Materials in Civil Engineering, 24, 1359-1367.
RANIERI, V., SANSALONE, J. J. & SHULER, S. 2010. Relationships among gradation curve, clogging resistance, and pore-based indices of porous asphalt mixes. Road materials and pavement design, 11, 507-525.
ROFFE, J. C. 1989. Salviacim–introducing the pavement. Jean Lafebvre Enterprise, Paris, France.
ROSEEN, R. M., BALLESTERO, T. P., HOULE, J. J., BRIGGS, J. F. & HOULE, K. M. 2012. Water quality and hydrologic performance of a porous asphalt pavement as a storm-water treatment strategy in a cold climate. Journal of Environmental Engineering, 138, 81-89.
RUIZ, A., ALBEROLA, R., PEREZ, F. & SANCHEZ, B. 1990. Porous asphalt mixtures in Spain. Transportation Research Record.
SANGIORGI, C., TATARANNI, P., SIMONE, A., VIGNALI, V., LANTIERI, C. & DONDI, G. 2016. Assessment of waste bleaching clay as alternative filler for the production of porous asphalts. Construction and Building Materials, 109, 1-7.
SANTHA, L. 1997. A Comparison of Modified Open-Graded Friction Courses to Standard Open-Graded Friction Course. Georgia Department of Transportation Research Project.
SCHAUS, L. K. 2007. Porous Asphalt Pavement Designs: Proactive Design for Cold Climate Use, the University of Waterloo for the Degree of Master of Applied Science in Civil Engineering. Waterloo, Ontario, Canada.
SHAFABAKHSH, G. H. & ANI, O. J. 2015. Experimental investigation of effect of Nano TiO2/SiO2 modified bitumen on the rutting and fatigue performance of asphalt mixtures containing steel slag aggregates. Construction and Building Materials, 98, 692-702.
SHANKAR, A., SURESHA, S. & SAIKUMAR, G. 2014. Properties of porous friction course mixes for flexible pavements. Indian Highways, 42.
SHUKRY, N. A. M., HASSAN, N. A., HAININ, M. R., ABDULLAH, M. E., ABDULLAH, N. A. M., MAHMUD, M. Z. H., PUTRAJAYA, R. & MASHROS, N. 2016. Experimental evaluation of anti-stripping additives on porous asphalt mixtures. Jurnal Teknologi, 78.
SIMON, M. W., STAFFORD, K. T. & OU, D. L. 2008. Nanoclay Reinforcement of Liquid Silicone Rubber. Journal of Inorganic and Organometallic Polymers and Materials, 18, 364-373.
SINGH, S. 2019. Evaluation of Properties of Porous Asphalt by Adding Granulated Waste Plastic. 8, 1304-1307.
SINHA RAY, S. & OKAMOTO, M. 2003. Polymer/layered silicate nanocomposites: a review from preparation to processing. Progress in Polymer Science, 28, 1539-1641.
SLEBI-ACEVEDO, C. J., PASCUAL-MUÑOZ, P., LASTRA-GONZÁLEZ, P. & CASTRO-FRESNO, D. 2021. A multi-criteria decision-making analysis for the selection of fibres aimed at reinforcing asphalt concrete mixtures. International Journal of Pavement Engineering, 22, 763-779.
STROHBÜCKER, V., NIESNER, R. & JOOS, F. Simulation method for vehicle tire water spraying behavior. In: BARGENDE, M., REUSS, H.-C. & WIEDEMANN, J., eds. 18. Internationales Stuttgarter Symposium, 2018// 2018 Wiesbaden. Springer Fachmedien Wiesbaden, 1393-1409.
SUN, J., ZHANG, H., WU, G., LIU, Z., FENG, Y. & JIA, M. 2021. Micro-structural analysis of noise reduction mechanism of porous asphalt mixture based on FEM. Multidiscipline Modeling in Materials and Structures, 17, 1154-1167.
SUN, L., XIN, X. & REN, J. 2017. Asphalt modification using nano-materials and polymers composite considering high and low temperature performance. Construction and Building Materials, 133, 358-366.
TAHERKHANI, H. & BAYAT, R. 2015. Applied Nanomaterials in Enhancing the Properties of Asphalt Mixtures. Caspian Journal of Applied Sciences Research, 4, 36-40.
TAHERKHANI, H. & TAJDINI, M. 2019. Comparing the effects of nano-silica and hydrated lime on the properties of asphalt concrete. Construction and Building Materials, 218, 308-315.
TANG, G., GAO, L., JI, T. & XIE, J. 2017. Study on the Resistance of Raveling for Porous Asphalt Pavement. DEStech Transactions on Materials Science and Engineering.
TANZADEH, J. & SHAHREZAGAMASAEI, R. 2017. Laboratory assessment of hybrid fiber and nano-silica on reinforced porous asphalt mixtures. Construction and Building Materials, 144, 260-270.
TANZADEH, R., TANZADEH, J. & TAHAMI, S. A. 2019. Experimental study on the effect of basalt and glass fibers on behavior of open-graded friction course asphalt modified with nano-silica. Construction and Building Materials, 212, 467-475.
TESORIERE, G., CANALE, S. & VENTURA, F. Analysis of Draining Pavements from a Point of View of Phono-Absorption. Proc. 4th Europian Symp., Madrid, 1989. 878-881.
TJARONGE, M., CARONGE, M., ZAIFULLAH, M. & RAHMAT, M. Preliminary Study on Compressive Strength of Porous Asphalt Containing Modified Buton Asphalt, Waste Plastic and Limestone Powder. IOP Conference Series: Materials Science and Engineering, 2020. IOP Publishing, 012032.
VALE, A. C. D., CASAGRANDE, M. D. T. & SOARES, J. B. 2014. Behavior of natural fiber in stone matrix asphalt mixtures using two design methods. Journal of Materials in Civil Engineering, 26, 457-465.
VAN HEYSTRAETEN, G. & MORAUX, C. 1990. TEN YEARS'EXPERIENCE OF POROUS ASPHALT IN BELGIUM. Transportation Research Record.
VERHAEGHE, B. M. J. A., RUST, F. C., VOS, R. M. & VISSER, A. T. Properties of polymer - and fibre-modified porous asphalt mixes. 1994-10 1994.
WANG, X., WU, R. & ZHANG, L. 2019. Development and performance evaluation of epoxy asphalt concrete modified with glass fibre. Road Materials and Pavement Design, 20, 715-726.
WAPA, W. A. P. A. 2015. WAPA.
WATSON, D., QURESHI, N. A. & XIE, Z. 2020. Improvements of Open-Graded Friction Course in Alabama ALDOT 930-790.
WATSON, D. E., ANN MOORE, K., WILLIAMS, K. & ALLEN COOLEY, L. 2003. Refinement of New-Generation Open-Graded Friction Course Mix Design. Transportation Research Record, 1832, 78-85.
WATSON, D. E., COOLEY, L. A., ANN MOORE, K. & WILLIAMS, K. 2004. Laboratory Performance Testing of Open-Graded Friction Course Mixtures. Transportation Research Record, 1891, 40-47.
WOLDEKIDAN, M. F. 2011. Response modelling of bitumen, bituminous mastic and mortar.
XIAO, Z., CHEN, M., WU, S., XIE, J., KONG, D., QIAO, Z. & NIU, C. 2019. Moisture susceptibility evaluation of asphalt mixtures containing steel slag powder as filler. Materials, 12, 3211.
YANG, J. & TIGHE, S. 2013a. A review of advances of nanotechnology in asphalt mixtures. Procedia-Social and Behavioral Sciences, 96, 1269-1276.
YANG, J. & TIGHE, S. 2013b. A Review of Advances of Nanotechnology in Asphalt Mixtures. Procedia - Social and Behavioral Sciences, 96, 1269-1276.
YAO, H., YOU, Z., LI, L., LEE, C., WINGARD, D., YAP, Y. K., SHI, X. & GOH, S. W. 2012. Properties and Chemical Bonding of Asphalt and Asphalt Mixtures Modified with Nanosilica. Journal of Materials in Civil Engineering, 25.
YAO, H., YOU, Z., LI, L., LEE, C. H., WINGARD, D., YAP, Y. K., SHI, X. & GOH, S. W. 2013. Rheological properties and chemical bonding of asphalt modified with nanosilica. Journal of Materials in Civil Engineering, 25, 1619-1630.
ZAFARI, F., RAHI, M., MOSHTAGH, N. & NAZOCKDAST, H. 2014. The improvement of bitumen properties by adding nanosilica. Study of Civil Engineering and Architecture, 3, 62-69.
ZAKARIA, N. M., HASSAN, M. K., IBRAHIM, A. N. H., ROSYIDI, S. A. P., YUSOFF, N. I. M., MOHAMED, A. A. & HASSAN, N. 2018. The use of mixed waste recycled plastic and glass as an aggregate replacement in asphalt mixtures. Jurnal Teknologi, 80.
ZALNEZHAD, H., GALOOYAK, S. S., FARAHANI, H. & GOLI, A. 2015. Investigating the effect of nano-silica on the specification of the sasobit warm mix asphalt. Petroleum & Coal, 57, 509-515.
ZHANG, H., LI, H., ZHANG, Y., WANG, D., HARVEY, J. & WANG, H. 2018. Performance enhancement of porous asphalt pavement using red mud as alternative filler. Construction and Building Materials, 160, 707-713.
AFONSO, M. L., DINIS-ALMEIDA, M. & FAEL, C. S. 2017. Study of the porous asphalt performance with cellulosic fibres. Construction and Building Materials, 135, 104-111.
AHMADINIA, E., ZARGAR, M., KARIM, M. R., ABDELAZIZ, M. & SHAFIGH, P. 2011. Using waste plastic bottles as additive for stone mastic asphalt. Materials & Design, 32, 4844-4849.
AHMED, M. B., ABED, A. H. & AL-BADRAN, Y. M. H. 2019. Evaluation of Moisture Susceptibility for Modified Open Graded Friction Course Mixes Used Styrene Butadiene Styrene. Al-Nahrain Journal for Engineering Sciences, 22.
AHMED, M. B., ABED, A. H. & AL-BADRAN, Y. M. H. 2020. Enhancement of porous asphalt mixture for resisting environmental conditions using modified asphalt. IOP Conference Series: Materials Science and Engineering, 737, 012118.
AL-BUSALTAN, S., AL-YASARI, R., AL-JAWAD, O. & SAGHAFI, B. 2020. Durability assessment of open-graded friction course using a sustainable polymer. International Journal of Pavement Research and Technology, 13, 645-653.
AL-HDABI, A., AL-SAHAF, N. A., MAHDI, L. A., YESAR, Z., MOEID, H. & HASSAN, M. Laboratory investigation on the properties of asphalt concrete mixture with GGBFS as filler. IOP Conference Series: Materials Science and Engineering, 2019. IOP Publishing, 012063.
AL-JUMAILI, M. A. H. 2016. Laboratory evaluation of modified porous asphalt mixtures. Appl. Res. J, 8, 2-3.
AL-KAISSI, Z. A. & MASHKOOR, O. G. 2016. Durability of porous asphalt pavement. Journal of Engineering and Sustainable Development, 20, 53-70.
ALDERSON, A. 1996. The Design of open graded asphalt. Australian Asphalt Pavement Association.
ALI, M. Q. & KHOSHNAW, G. J. 2020. Influences of polymer modifiers on Porous Hot Asphalt Mixture Property and Durability. Polytechnic Journal, 10, 126-131.
ALLEN COOLEY JR, L., RAY BROWN, E. & WATSON, D. E. 2000. Evaluation of open-graded friction course mixtures containing cellulose fibers. Transportation Research Record, 1723, 19-25.
ALVAREZ, A. E., MARTIN, A. E., ESTAKHRI, C. K., BUTTON, J. W., GLOVER, C. J. & JUNG, S. H. 2006. Synthesis of current practice on the design, construction, and maintenance of porous friction courses.
AMERI, M. & ESFAHANI, M. A. 2008. Evaluation and performance of hydrated lime and limestone powder in porous asphalt. Road Materials and Pavement Design, 9, 651-664.
ANDRÉS-VALERI, V. C. 1991. Report on the 1990 European Asphalt Study Tour.
ANDRÉS-VALERI, V. C., RODRIGUEZ-TORRES, J., CALZADA-PEREZ, M. A. & RODRIGUEZ-HERNANDEZ, J. 2018. Exploratory study of porous asphalt mixtures with additions of reclaimed tetra pak material. Construction and Building Materials, 160, 233-239.
ARSHAD, A., AHMAD, J. & MASRI, K. 2019. Rutting resistance of nanosilica modified porous asphalt. International Journal of Civil Engineering and Technology, 10, 2274-2284.
BALDI-SEVILLA, A., MONTERO, M. L., AGUIAR, J. P. & LORÍA, L. G. 2016. Influence of nanosilica and diatomite on the physicochemical and mechanical properties of binder at unaged and oxidized conditions. Construction and Building Materials, 127, 176-182.
BROWN, E. R. 2004. Relationship of air voids, lift thickness, and permeability in hot mix asphalt pavements, Transportation Research Board.
CAMOMILLA, G., MALGARINI, M. & GERVASIO, S. 1990. Sound absorption and winter performance of porous asphalt pavement. Transportation Research Record, 1265, 1-8.
CHEN, J.-S. & LIN, K.-Y. 2005. Mechanism and behavior of bitumen strength reinforcement using fibers. Journal of materials science, 40, 87-95.
CHEN, J.-S., SUN, Y.-C., LIAO, M.-C. & HUANG, C.-C. 2012. Effect of binder types on engineering properties and performance of porous asphalt concrete. Transportation research record, 2293, 55-62.
CHEN, J.-S., SUN, Y.-C., LIAO, M.-C., HUANG, C.-C. & TSOU, K.-W. 2013. Evaluation of permeable friction course mixes with various binders and additives. Journal of materials in civil engineering, 25, 573-579.
CHEN, M. & WONG, Y. 2015. Porous asphalt mixture with a combination of solid waste aggregates. Journal of Materials in Civil Engineering, 27, 04014194.
CHEN, M. J. & WONG, Y. D. 2013. Porous asphalt mixture with 100% recycled concrete aggregate. Road materials and pavement design, 14, 921-932.
CHENG, Y., CHAI, C., LIANG, C. & CHEN, Y. 2019. Mechanical Performance of Warm-Mixed Porous Asphalt Mixture with Steel Slag and Crumb-Rubber–SBS Modified Bitumen for Seasonal Frozen Regions. Materials, 12, 857.
CHU, L., TANG, B. & FWA, T. 2018. Evaluation of functional characteristics of laboratory mix design of porous pavement materials. Construction and Building Materials, 191, 281-289.
DAINES, M. 1992. Trials of porous asphalt and rolled asphalt on the A38 at Burton. TRL RESEARCH REPORT.
DECOENE, Y. 1990. Contribution of cellulose fibers to the performance of porous asphalts. Transportation Research Record, 1265, 82-86.
EISENBERG, B., LINDOW, K. C. & SMITH, D. R. Permeable pavements. 2015. American Society of Civil Engineers Reston, VA.
ENIEB, M. & DIAB, A. 2017. Characteristics of asphalt binder and mixture containing nanosilica. International Journal of Pavement Research and Technology, 10, 148-157.
ENIEB, M., DIAB, A. & YANG, X. 2021. Short-and long-term properties of glass fiber reinforced asphalt mixtures. International Journal of Pavement Engineering, 22, 64-76.
ESKANDARSEFAT, S., DONDI, G. & SANGIORGI, C. 2019. Recycled and rubberized SMA modified mixtures: A comparison between polymer modified bitumen and modified fibres. Construction and Building Materials, 202, 681-691.
EZZAT, H., EL-BADAWY, S., GABR, A., ZAKI, E.-S. I. & BREAKAH, T. 2016. Evaluation of Asphalt Binders Modified with Nanoclay and Nanosilica. Procedia Engineering, 143, 1260-1267.
FAGHRI, M., SADD, M. H. & GONCALVES, E. 2002. Performance improvement of open-graded asphalt mixes. University of Rhode Island Transportation Center Report URI-TC Project, 536144.
FANG, C., YU, X., YU, R., LIU, P. & QIAO, X. 2016. Preparation and properties of isocyanate and nano particles composite modified asphalt. Construction and Building Materials, 119, 113-118.
FRIGIO, F. & CANESTRARI, F. 2018. Characterisation of warm recycled porous asphalt mixtures prepared with different WMA additives. European Journal of Environmental and Civil Engineering, 22, 82-98.
GHASEMI, M., MARANDI, S. M., TAHMOORESI, M., KAMALI, J. & TAHERZADE, R. 2012. Modification of stone matrix asphalt with nano-SiO2. Journal of Basic and Applied Scientific Research, 2, 1338-1344.
GUPTA, A., RODRIGUEZ-HERNANDEZ, J. & CASTRO-FRESNO, D. 2019. Incorporation of additives and fibers in porous asphalt mixtures: A review. Materials, 12, 3156.
HAMEDI, G. H. & MOGHADAS NEJAD, F. 2015. Using energy parameters based on the surface free energy concept to evaluate the moisture susceptibility of hot mix asphalt. Road Materials and Pavement Design, 16, 239-255.
HAMZAH, M., SAMAT, M., JOON, K., MUNIANDY, R., TECH, D. & BANGWHA2-DONG, G.-K. Modification of aggregate grading for porous asphalt. Proceedings of the 3rd Eurasphaly and Eurobotume Congress, Vienna, Austria, 2004.
HASHIM, T. M., ALI, A. H., AL-KHAFAJI, R., AL-KHAZRAJI, A. A. & DHARB, F. R. A. Z. A Comparison Study between Porous and Conventional Asphalt Concrete Mixtures. IOP Conference Series: Materials Science and Engineering, 2021. IOP Publishing, 012041.
HASSAN, A. F., ABDELGHNY, A. M., ELHADIDY, H. & YOUSSEF, A. M. 2014. Synthesis and characterization of high surface area nanosilica from rice husk ash by surfactant-free sol–gel method. Journal of Sol-Gel Science and Technology, 69, 465-472.
HEIN, D., STRECKER, E., PORESKY, A., ROSEEN, R. & VENNER, M. 2013. NCHRP 25-25/Task 82: Permeable Shoulders with Stone Reservoirs. Transportation Research Board of the National Academies. October.
HU, X., DAI, K. & PAN, P. 2019. Investigation of engineering properties and filtration characteristics of porous asphalt concrete containing activated carbon. Journal of Cleaner Production, 209, 1484-1493.
HUANG, S. & LIANG, C. 2018. A conceptual study on the formulation of a permeable reactive pavement with activated carbon additives for controlling the fate of non-point source environmental organic contaminants. Chemosphere, 193, 438-446.
HUBER, G. 2000. Performance survey on open-graded friction course mixes, Transportation Research Board.
IWATA, H., WATANABE, T. & SAITO, T. Study on the performance of porous asphalt pavement on winter road surface conditions. New Challenges for Winter Road Service. XIth International Winter Road CongressWorld Road Association (PIARC), 2002.
JACOBS, F. 1982. M40 high wycombe bypass: results of a bituminous surface texture experiment.
JALAL MADHAT KHOWSHNAW, G. & MUSTAFA SALIH ZEBARI, S. 2019. Evaluation and performance of fly ash in porous asphalt by using two sources of asphalt binder. Eurasian Journal of Science and Engineering, 4, 122-134.
JAMES, T. M. 2016. Development of a Performance-Based Mix Design for Porous Friction Course.
KAMADA, O. & YAMADA, M. 2002. Utilization of waste plastics in asphalt mixtures. Memoirs of the Faculty of Engineering, Osaka City University, 43, 111-118.
KANDHAL, P. S. PE, Associate Director National Center for Asphalt Technology (2002) Design, Construction, and Maintenance of Open-Graded Asphalt Friction Courses. URL: http://driveasphalt. org/assets/content/resources/IS-115_Open_Graded_Asphalt_Friction_Courses. pdf(Last accessed: 20.04. 2020)[in English].
KANDHAL, P. S. 2002. Design, construction, and maintenance of open-graded asphalt friction courses, National Asphalt Pavement Association.
KANDHAL, P. S. & MALLICK, R. B. 1998. Open graded friction course: state of the practice, Transportation Research Board, National Research Council Washington, DC, USA.
KANDHAL, P. S. & MALLICK, R. B. 1999. Design of New-Generation Open-Graded Friction Courses (Revised). National Center for Asphalt Technology.
KATMAN, H. Y., KARIM, M. R., MAHREZ, A. & IBRAHIM, M. R. Performance of wet mix rubberised porous asphalt. Proceedings of the Eastern Asia Society for Transportation Studies, 2005. Citeseer, 695-708.
KHALID, H. & WALSH, C. Relating mix and binder fundamental properties of aged porous asphalt materials. PROCEEDINGS OF THE PAPERS SUBMITTED FOR REVIEW AT 2ND EURASPHALT AND EUROBITUME CONGRESS, HELD 20-22 SEPTEMBER 2000, BARCELONA, SPAIN. BOOK 1-SESSION 1, 2000.
KREZEM, M. 2019. Producing Porous Asphalt in Palestine According to ASTM D7064. Journal of Engineering Research and Technology, 6.
LEE, H. S., CARVAJAL, M., HOLZSCHUHER, C. & CHOUBANE, B. 2021. Florida Department of Transportation’s Enhanced Hydroplaning Prediction Tool. Transportation Research Record, 2675, 340-352.
LEFEBVRE, ASSOCIATION, P. W. R. & ROADS, P. T. C. O. F. 1993. Les enrobes drainants : Porous asphalt / by G. Lefebvre, Permanent International Association of Road Congresses.
LEFEBVRE, G. 1993. Porous asphalt.
LEKHAZ, D., REDDY, S. S., MOHAN, M. & NAIDU, M. 2016. A Study on Bituminous Concrete Mix with Cement, GGBS, Brick Dust as a Filler. International Journal of Engineering Science, 2771.
LI, R., XIAO, F., AMIRKHANIAN, S., YOU, Z. & HUANG, J. 2017. Developments of nano materials and technologies on asphalt materials–A review. Construction and Building Materials, 143, 633-648.
LIU, Q. & CAO, D. 2009. Research on material composition and performance of porous asphalt pavement. Journal of Materials in Civil Engineering, 21, 135-140.
LYONS, K. R. & PUTMAN, B. J. 2013. Laboratory evaluation of stabilizing methods for porous asphalt mixtures. Construction and Building Materials, 49, 772-780.
MA, X., LI, Q., CUI, Y.-C. & NI, A.-Q. 2018. Performance of porous asphalt mixture with various additives. International Journal of Pavement Engineering, 19, 355-361.
MAJEED, G. A. W. & SARSAM, S. I. 2021. Assessing the Marshall Properties of Porous Asphalt Concrete. Journal of Engineering, 27, 113-129.
MANSOUR, T. N. & PUTMAN, B. J. 2013. Influence of aggregate gradation on the performance properties of porous asphalt mixtures. Journal of Materials in Civil Engineering, 25, 281-288.
MARANDI, S. M., GHASEMI, M. & SHAHIRI, J. 2017. Effects of partial substitution of styrene-butadiene-styrene with granulated blast-furnace slag on the strength properties of porous asphalt. International Journal of Engineering, 30, 40-47.
MARCHIONI, M. & BECCIU, G. 2015. Experimental results on permeable pavements in urban areas: a synthetic review. International Journal of Sustainable Development and Planning, 10, 806-817.
MASHAAN, N., CHEGENIZADEH, A. & NIKRAZ, H. 2021. Laboratory Properties of Waste PET Plastic-Modified Asphalt Mixes. Recycling, 6, 49.
MASRI, K., AWANG, H., JAYA, R. P., ALI, M., RAMLI, N. & ARSHAD, A. Moisture susceptibility of porous asphalt mixture with Nano silica modified asphalt binder. IOP Conference Series: Earth and Environmental Science, 2019. IOP Publishing, 012028.
MOHAMMED, H. H. 2021. Using of Open-Graded Bituminous Mixtures in Iraq. Turkish Journal of Computer and Mathematics Education (TURCOMAT), 12, 2443-2457.
MOORE, L. M., HICKS, R. G. & ROGGE, D. F. 2001. Design, Construction, and Maintenance Guidelines for Porous Asphalt Pavements. Transportation Research Record, 1778, 91-99.
MUNGATHIA, T., GARIY, Z. & NYOMBOI, T. 2021. Analysis of Bitumen Draindown Characteristics of Sisal-plastic Modified Open Graded Asphalt. Journal of Agriculture, Science and Technology, 20, 94-106.
NASSAR, A. I., MOHAMMED, M. K., THOM, N. & PARRY, T. 2016. Mechanical, durability and microstructure properties of Cold Asphalt Emulsion Mixtures with different types of filler. Construction and Building Materials, 114, 352-363.
NAZARI, H., NADERI, K. & MOGHADAS NEJAD, F. 2018. Improving aging resistance and fatigue performance of asphalt binders using inorganic nanoparticles. Construction and Building Materials, 170, 591-602.
NAZARINASAB, A., GHASEMI, M. & MARANDI, S. M. 2018. Performance improvement of porous asphalt mixtures using crumb rubber and steel slag powder. International Journal of Transportation Engineering, 6, 99-110.
NICHOLLS, C. 1998a. Asphalt surfacings a guide to asphalt surfacings and treatments used for the surface course of road pavements, London ;, E & FN Spon.
NICHOLLS, J. 1999. Review of UK porous asphalt trials, Thomas Telford.
NICHOLLS, J. C. 1998b. Asphalt surfacings, CRC Press.
PASETTO, M. Porous asphalt concretes with added microfibres. PROCEEDINGS OF THE PAPERS SUBMITTED FOR REVIEW AT 2ND EURASPHALT AND EUROBITUME CONGRESS, HELD 20-22 SEPTEMBER 2000, BARCELONA, SPAIN. BOOK 2-SESSION 2, 2000.
POTTER, J. & HALLIDAY, A. 1981. The Contribution of Pervious Macadam Surfacing to the Structural Performance of Roads.
POULIKAKOS, L., GUBLER, R., PARTL, M., PITTET, M., ARNAUD, L., JUNOD, A., DUMONT, A.-G. & SIMOND, E. 2006. Mechanical properties of porous asphalt, recommendations for standardization.
PRADOTO, R., PURI, E., HADINATA, T. & RAHMAN, Q. D. Improving strength of porous asphalt: a nano material experimental approach. IOP Conference Series: Materials Science and Engineering, 2020. IOP Publishing, 012044.
PUNITH, V., SURESHA, S., VEERARAGAVAN, A., RAJU, S. & BOSE, S. Characterization of polymer and fiber-modified porous asphalt mixtures. Proceedings of the 83rd Annual Meeting of Transportation Research Board, 2004.
PUTMAN, B. J. & KLINE, L. C. 2012. Comparison of mix design methods for porous asphalt mixtures. Journal of Materials in Civil Engineering, 24, 1359-1367.
RANIERI, V., SANSALONE, J. J. & SHULER, S. 2010. Relationships among gradation curve, clogging resistance, and pore-based indices of porous asphalt mixes. Road materials and pavement design, 11, 507-525.
ROFFE, J. C. 1989. Salviacim–introducing the pavement. Jean Lafebvre Enterprise, Paris, France.
ROSEEN, R. M., BALLESTERO, T. P., HOULE, J. J., BRIGGS, J. F. & HOULE, K. M. 2012. Water quality and hydrologic performance of a porous asphalt pavement as a storm-water treatment strategy in a cold climate. Journal of Environmental Engineering, 138, 81-89.
RUIZ, A., ALBEROLA, R., PEREZ, F. & SANCHEZ, B. 1990. Porous asphalt mixtures in Spain. Transportation Research Record.
SANGIORGI, C., TATARANNI, P., SIMONE, A., VIGNALI, V., LANTIERI, C. & DONDI, G. 2016. Assessment of waste bleaching clay as alternative filler for the production of porous asphalts. Construction and Building Materials, 109, 1-7.
SANTHA, L. 1997. A Comparison of Modified Open-Graded Friction Courses to Standard Open-Graded Friction Course. Georgia Department of Transportation Research Project.
SCHAUS, L. K. 2007. Porous Asphalt Pavement Designs: Proactive Design for Cold Climate Use, the University of Waterloo for the Degree of Master of Applied Science in Civil Engineering. Waterloo, Ontario, Canada.
SHAFABAKHSH, G. H. & ANI, O. J. 2015. Experimental investigation of effect of Nano TiO2/SiO2 modified bitumen on the rutting and fatigue performance of asphalt mixtures containing steel slag aggregates. Construction and Building Materials, 98, 692-702.
SHANKAR, A., SURESHA, S. & SAIKUMAR, G. 2014. Properties of porous friction course mixes for flexible pavements. Indian Highways, 42.
SHUKRY, N. A. M., HASSAN, N. A., HAININ, M. R., ABDULLAH, M. E., ABDULLAH, N. A. M., MAHMUD, M. Z. H., PUTRAJAYA, R. & MASHROS, N. 2016. Experimental evaluation of anti-stripping additives on porous asphalt mixtures. Jurnal Teknologi, 78.
SIMON, M. W., STAFFORD, K. T. & OU, D. L. 2008. Nanoclay Reinforcement of Liquid Silicone Rubber. Journal of Inorganic and Organometallic Polymers and Materials, 18, 364-373.
SINGH, S. 2019. Evaluation of Properties of Porous Asphalt by Adding Granulated Waste Plastic. 8, 1304-1307.
SINHA RAY, S. & OKAMOTO, M. 2003. Polymer/layered silicate nanocomposites: a review from preparation to processing. Progress in Polymer Science, 28, 1539-1641.
SLEBI-ACEVEDO, C. J., PASCUAL-MUÑOZ, P., LASTRA-GONZÁLEZ, P. & CASTRO-FRESNO, D. 2021. A multi-criteria decision-making analysis for the selection of fibres aimed at reinforcing asphalt concrete mixtures. International Journal of Pavement Engineering, 22, 763-779.
STROHBÜCKER, V., NIESNER, R. & JOOS, F. Simulation method for vehicle tire water spraying behavior. In: BARGENDE, M., REUSS, H.-C. & WIEDEMANN, J., eds. 18. Internationales Stuttgarter Symposium, 2018// 2018 Wiesbaden. Springer Fachmedien Wiesbaden, 1393-1409.
SUN, J., ZHANG, H., WU, G., LIU, Z., FENG, Y. & JIA, M. 2021. Micro-structural analysis of noise reduction mechanism of porous asphalt mixture based on FEM. Multidiscipline Modeling in Materials and Structures, 17, 1154-1167.
SUN, L., XIN, X. & REN, J. 2017. Asphalt modification using nano-materials and polymers composite considering high and low temperature performance. Construction and Building Materials, 133, 358-366.
TAHERKHANI, H. & BAYAT, R. 2015. Applied Nanomaterials in Enhancing the Properties of Asphalt Mixtures. Caspian Journal of Applied Sciences Research, 4, 36-40.
TAHERKHANI, H. & TAJDINI, M. 2019. Comparing the effects of nano-silica and hydrated lime on the properties of asphalt concrete. Construction and Building Materials, 218, 308-315.
TANG, G., GAO, L., JI, T. & XIE, J. 2017. Study on the Resistance of Raveling for Porous Asphalt Pavement. DEStech Transactions on Materials Science and Engineering.
TANZADEH, J. & SHAHREZAGAMASAEI, R. 2017. Laboratory assessment of hybrid fiber and nano-silica on reinforced porous asphalt mixtures. Construction and Building Materials, 144, 260-270.
TANZADEH, R., TANZADEH, J. & TAHAMI, S. A. 2019. Experimental study on the effect of basalt and glass fibers on behavior of open-graded friction course asphalt modified with nano-silica. Construction and Building Materials, 212, 467-475.
TESORIERE, G., CANALE, S. & VENTURA, F. Analysis of Draining Pavements from a Point of View of Phono-Absorption. Proc. 4th Europian Symp., Madrid, 1989. 878-881.
TJARONGE, M., CARONGE, M., ZAIFULLAH, M. & RAHMAT, M. Preliminary Study on Compressive Strength of Porous Asphalt Containing Modified Buton Asphalt, Waste Plastic and Limestone Powder. IOP Conference Series: Materials Science and Engineering, 2020. IOP Publishing, 012032.
VALE, A. C. D., CASAGRANDE, M. D. T. & SOARES, J. B. 2014. Behavior of natural fiber in stone matrix asphalt mixtures using two design methods. Journal of Materials in Civil Engineering, 26, 457-465.
VAN HEYSTRAETEN, G. & MORAUX, C. 1990. TEN YEARS'EXPERIENCE OF POROUS ASPHALT IN BELGIUM. Transportation Research Record.
VERHAEGHE, B. M. J. A., RUST, F. C., VOS, R. M. & VISSER, A. T. Properties of polymer - and fibre-modified porous asphalt mixes. 1994-10 1994.
WANG, X., WU, R. & ZHANG, L. 2019. Development and performance evaluation of epoxy asphalt concrete modified with glass fibre. Road Materials and Pavement Design, 20, 715-726.
WAPA, W. A. P. A. 2015. WAPA.
WATSON, D., QURESHI, N. A. & XIE, Z. 2020. Improvements of Open-Graded Friction Course in Alabama ALDOT 930-790.
WATSON, D. E., ANN MOORE, K., WILLIAMS, K. & ALLEN COOLEY, L. 2003. Refinement of New-Generation Open-Graded Friction Course Mix Design. Transportation Research Record, 1832, 78-85.
WATSON, D. E., COOLEY, L. A., ANN MOORE, K. & WILLIAMS, K. 2004. Laboratory Performance Testing of Open-Graded Friction Course Mixtures. Transportation Research Record, 1891, 40-47.
WOLDEKIDAN, M. F. 2011. Response modelling of bitumen, bituminous mastic and mortar.
XIAO, Z., CHEN, M., WU, S., XIE, J., KONG, D., QIAO, Z. & NIU, C. 2019. Moisture susceptibility evaluation of asphalt mixtures containing steel slag powder as filler. Materials, 12, 3211.
YANG, J. & TIGHE, S. 2013a. A review of advances of nanotechnology in asphalt mixtures. Procedia-Social and Behavioral Sciences, 96, 1269-1276.
YANG, J. & TIGHE, S. 2013b. A Review of Advances of Nanotechnology in Asphalt Mixtures. Procedia - Social and Behavioral Sciences, 96, 1269-1276.
YAO, H., YOU, Z., LI, L., LEE, C., WINGARD, D., YAP, Y. K., SHI, X. & GOH, S. W. 2012. Properties and Chemical Bonding of Asphalt and Asphalt Mixtures Modified with Nanosilica. Journal of Materials in Civil Engineering, 25.
YAO, H., YOU, Z., LI, L., LEE, C. H., WINGARD, D., YAP, Y. K., SHI, X. & GOH, S. W. 2013. Rheological properties and chemical bonding of asphalt modified with nanosilica. Journal of Materials in Civil Engineering, 25, 1619-1630.
ZAFARI, F., RAHI, M., MOSHTAGH, N. & NAZOCKDAST, H. 2014. The improvement of bitumen properties by adding nanosilica. Study of Civil Engineering and Architecture, 3, 62-69.
ZAKARIA, N. M., HASSAN, M. K., IBRAHIM, A. N. H., ROSYIDI, S. A. P., YUSOFF, N. I. M., MOHAMED, A. A. & HASSAN, N. 2018. The use of mixed waste recycled plastic and glass as an aggregate replacement in asphalt mixtures. Jurnal Teknologi, 80.
ZALNEZHAD, H., GALOOYAK, S. S., FARAHANI, H. & GOLI, A. 2015. Investigating the effect of nano-silica on the specification of the sasobit warm mix asphalt. Petroleum & Coal, 57, 509-515.
ZHANG, H., LI, H., ZHANG, Y., WANG, D., HARVEY, J. & WANG, H. 2018. Performance enhancement of porous asphalt pavement using red mud as alternative filler. Construction and Building Materials, 160, 707-713.
Published
2023-12-24
How to Cite
KHALID, S. W., & AL-HADAD, B. M. A. (2023). A REVIEW ARTICLE ON MECHANICAL PROPERTIES OF POROUS ASPHALT MIXTURE. Journal of Duhok University, 26(2), 480-500. https://doi.org/10.26682/sjuod.2023.26.2.41
Section
Pure and Engineering Sciences
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