http://orcid.org/0000-0003-4062-1402
References
- AASHTO MP8. Standard specification for designing stone matrix asphalt (SMA). American Association of State and Highway Transportation Officials.
- AASHTO PP41. Standard practice for designing stone matrix asphalt (SMA). American Association of State and Highway Transportation Officials.
- AASHTO T19. Standard method of test for bulk density (“unit weight”) and voids in aggregate. American Association of State and Highway Transportation Officials.
- ASTM C29. Standard test method for bulk density (“unit weight”) and voids in aggregate. American Society for Testing and Materials.
- Austroads. (2013). Mastic performance assessment in stone mastic Asphalt (Report No. AP-T219-13). Sidney: Austroads Incorporated.
- Blazejowski, K. (2011). Stone matrix asphalt: Theory and practice. New York, NY: CRC Press, Taylor & Francis Group.
- Brennan, M. J., Nolan, J., Murphy, D., & Lohan, G. (2000). Designing stone mastic asphalt. Road Materials and Pavement Design, 1(2), 227–243.
- Brown, E. R., Haddock, J. E., Crawford, C., Hughes, C. S., Lynn, T. A., Cooley, L. A., & Mallick, R. B. (1998). Designing stone matrix asphalt mixtures: Volume I – literature review; volume II (A) – research results for part 1 of phase I; volume II(B) – research results for part 2 of phase I; volume II(C) – research results for phase II; volume III – Summary of research results; volume IV – mixture design method, construction guidelines, and quality control procedures; and volume V – Appendix for phase II work (Report No. NCHRP 9-8 Final Report). Washington, DC: National Center for Asphalt Technology (NCAT) and National Cooperative Highway Research Program.
- Chen, M. J., & Wong, Y. D. (2016). Evaluation of the development of aggregate packing in porous asphalt mixture using discrete element method simulation. Road Materials and Pavement Design, 18, 64–85. doi: 10.1080/14680629.2016.1138881
- EAPA. (2007). Long-life asphalt pavements – technical version. Breukelen: European Asphalt Pavement Association.
- EN 13108-5. Bituminous mixtures – material specifications – part 5: stone mastic asphalt. European Committee for Standardization.
- Gardete, D., Picado-Santos, L., & Capitão, S. (2018). Improving bituminous mixture performance by optimizing the design compaction energy – a cost effective approach for better pavements. Construction and Building Materials, 190, 1173–1181. doi: 10.1016/j.conbuildmat.2018.09.169
- Hainin, M. R., Akhir, N. M., Jaya, R. P., Yusoff, N. I. M., Yaacob, I., Ismail, C. R., & Hassan, N. H. (2013). Aggregate degradation characteristics of stone mastic asphalt mixtures. Journal of Technology, 65(3), 111–114.
- Harris, B. M., & Stuart, K. D. (1995). Analysis of mineral fillers and mastics used in stone matrix asphalt. Journal of the Association of Asphalt Paving Technologists (AAPT), 64, 54–95.
- Jacobs, M. M., & Voskuilen, J. L. (2004). Description of a volumetric type testing and FPC procedure for SMA to prevent premature permanent deformation. Proceedings of the international symposium on design and construction of long lasting asphalt pavements, Alabama.
- Louw, L., Semmelink, C. J., & Verhaeghe, B. M. (1997). Development of a stone mastic asphalt design method for South African conditions. Proceedings of the 8th international conference on asphalt pavements, Seattle, WA.
- Miranda, H. M. B. (2016). Stone mastic asphalt – mix design, production, application and performance (PhD thesis). Universidade de Lisboa, Instituto Superior Técnico, Lisbon (in Portuguese).
- Miranda, H. M. B., Batista, F., Antunes, M. L., & Neves, J. (2019). Stone mastic asphalt: Development of a laboratory compaction method for optimization of stone-on-stone effect in coarse aggregate mixture. Manuscript submitted for publication.
- NAPA. (1999). Designing and constructing stone matrix asphalt (SMA) mixtures: State-of-the-practice (Report No. QIP-122). National Asphalt Pavement Association.
- Prowell, B. D., Watson, D. E., Hurley, G. C., & Brown, E. R. (2009). Evaluation of stone matrix asphalt (SMA) for airfield pavements (Report No. AAPTP 04-04). National Center for Asphalt Technology (NCAT).
- Roque, R., Birgisson, B., Kim, S., & Guarin, A. (2006). Development of mix design guidelines for improved performance of asphalt mixtures (Final Report, UF Project No. 4910-4554-032-12). Florida Department of Transportation.
- Stephenson, G., & Bullen, F. (2002). The design, creep and fatigue performance of stone mastic asphalt. Proceedings of the 9th international conference on asphalt pavements, Copenhagen.
- Stuart, K. D. (1992). Stone mastic asphalt (SMA) mixture design (Report No. FHWA-RD-92-006). Federal Highway Administration.
- van de Ven, M. F. C., Voskuilen, J. L. M., & Tolman, F. (2003). The spatial approach of hot mix asphalt. Proceedings of the 6th international RILEM symposium on performance testing and evaluation of bituminous materials, Zurique.
- Vavrik, W. R., Huber, G., Pine, W. J., Carpenter, S. H., & Bailey, R. (2002). Bailey method for gradation selection in hot-mix asphalt mixture design (Report No. E-C044). Transportation Research Board.
- Vavrik, W. R., Pine, W. J., Huber, G. A., Carpenter, S. H., & Bailey, R. (2001). The Bailey method of gradation evaluation: The influence of aggregate gradation and packing characteristics on voids in the mineral aggregate. Journal of the Association of Asphalt Paving Technologists, 70, 132–175.
- Voskuilen, J. (2000). Ideas for a volumetric mix design method for stone mastic asphalt. Proceedings of the 6th international conference durable and safe pavements, Kielce.
- ZTV bit Stb-84. Zusäzliche Technische Vertragsbedingungen und Ricthlinien für den Bau von Fahrbahndecken aus Asphalt. Köln: Forschungsgesellschaft für StraBen - und Verkehrswesen, FGSV.