Sustainable Pavement Materials and Technology
Department of Civil and Environmental Engineering, Universitat Politècnica de Catalunya-BarcelonaTech, 08034 Barcelona, Spain
Sustainability 2022, 14(11), 6605; https://doi.org/10.3390/su14116605
Submission received: 23 May 2022
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Accepted: 25 May 2022
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Published: 27 May 2022
(This article belongs to the Special Issue Sustainable Pavement Materials and Technology)
1. Contents of the Special Issue
In recent years, the pavement materials and technology community has focused most of its research efforts to minimize the environmental impact of the materials and procedures involved in pavement design, construction, maintenance and rehabilitation. In that process, several new materials and techniques have been developed. This Special Issue serves as a forum to manifest some original approaches to reduce the environmental impact of pavement materials.
The use of recycled materials is one of the main approaches to reduce the environmental impact of pavement materials. Three of the six papers published in this Special Issue refer directly to this topic. Crisman et al. [1] explored the influence of crumb rubber in asphalt mixtures on recycled steel slag mechanical performance, finding that crumb rubber increased the stiffness of these mixtures at high temperatures, while reducing it at lower ones. Radević et al. [2] analyzed the impact of recycled concrete aggregates on the mechanical performance of asphalt mixtures, concluding that 45% of recycled concrete aggregate can be used without substantially reducing the performance of the mixture. Finally, Al-Saffar et al. [3] carried out review research on the use of a rejuvenator on recycled asphalt mixtures and analyzed the influence of different rejuvenators on the durability of the recycled mixtures.
Improving the durability of pavement materials is another approach to reduce their environmental impact. Two works presented in this Issue focused on permeable pavement durability and sustainability, taking two different approaches. Chai et al. [4] analyzed how freeze-thaw cycles affect the durability of permeable pavements and discovered an air void high limit of 21% for porous asphalt in freezing regions. Quite different was the approach adopted by Sprouse III et al. [5] They proposed changes in the nomenclature and standards for pervious pavements and developed a ten-part holistic green design framework for these types of pavements, which should drastically improve their durability.
The valorization of waste materials from other industries to elaborate pavement materials is another way of improving their sustainability. Movilla-Quesada et al. [6] explored this in their work, using cellulose ash as an adhesive and moisture sensibility enhancing additive. They studied different dosages of this waste material to determine which would be the right proportion of this additive to improve the moisture sensibility of asphalt mixtures.
Funding
Part of this work has been funded by the project RTI2018-096224-J-I00 that has been cofounded by National Research Agency of the Spanish Ministry of Science and Innovation, inside the National Program for Fostering Excellence in Scientific and Technical Research, National Subprogram of Knowledge Generation, 2018 call, in the framework of the Spanish National Plan for Scientific and Technical Research and Innovation 2017–2020, and by the European Union, through the European Regional Development Fund, with the main objective of Promoting technological development, innovation and quality research.
Conflicts of Interest
The authors declare no conflict of interest.
References
- Crisman, B.; Ossich, G.; Lorenzi, L.D.; Bevilacqua, P.; Roberti, R. A Laboratory Assessment of the Influence of Crumb Rubber in Hot Mix Asphalt with Recycled Steel Slag. Sustainability 2020, 12, 8045. [Google Scholar] [CrossRef]
- Radević, A.; Isailović, I.; Wistuba, M.P.; Zakić, D.; Orešković, M.; Mladenović, G. The Impact of Recycled Concrete Aggregate on the Stiffness, Fatigue, and Low-Temperature Performance of Asphalt Mixtures for Road Construction. Sustainability 2020, 12, 3949. [Google Scholar] [CrossRef]
- Al-Saffar, Z.H.; Yaacob, H.; Katman, H.Y.; Mohd Satar, M.K.I.; Bilema, M.; Putra Jaya, R.; Eltwati, A.S.; Radeef, H.R. A Review on the Durability of Recycled Asphalt Mixtures Embraced with Rejuvenators. Sustainability 2021, 13, 8970. [Google Scholar] [CrossRef]
- Chai, C.; Cheng, Y.-C.; Zhang, Y.; Chen, Y.; Zhu, B. Experimental Study on the Performance Decay of Permeable Asphalt Mixture in Seasonally Frozen Regions under Freeze-Thaw Cycles. Sustainability 2020, 12, 2966. [Google Scholar] [CrossRef] [Green Version]
- Sprouse, C.E., III; Hoover, C.; Obritsch, O.; Thomazin, H. Advancing Pervious Pavements through Nomenclature, Standards, and Holistic Green Design. Sustainability 2020, 12, 7422. [Google Scholar] [CrossRef]
- Movilla-Quesada, D.; Raposeiras, A.C.; Lagos-Varas, M.; Muñoz-Cáceres, O.; Andrés-Valeri, V.-C.; Troncoso, L. Study of the Optimal Dosage of Celullose Ash as a Contribution Filler in Asphalt Mixtures Based on Its Adhesiveness under Moisture Conditions. Sustainability 2021, 13, 854. [Google Scholar] [CrossRef]
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Botella, R. Sustainable Pavement Materials and Technology. Sustainability 2022, 14, 6605. https://doi.org/10.3390/su14116605
AMA Style
Botella R. Sustainable Pavement Materials and Technology. Sustainability. 2022; 14(11):6605. https://doi.org/10.3390/su14116605
Chicago/Turabian StyleBotella, Ramon. 2022. "Sustainable Pavement Materials and Technology" Sustainability 14, no. 11: 6605. https://doi.org/10.3390/su14116605
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