Initial Field Validation of Poroelastic Pavement Made with Crumb Rubber, Mineral Aggregate and Highly Polymer-Modified Bitumen - Publikacja - MOST Wiedzy

Twoje konto

zaloguj

Wyszukiwarka

Initial Field Validation of Poroelastic Pavement Made with Crumb Rubber, Mineral Aggregate and Highly Polymer-Modified Bitumen

Abstrakt

Tire/road noise in most driving conditions dominates other sources of traffic noise. One of the most efficient ways of reducing tire/road noise is to use the so-called “low noise pavement”. According to numerous studies, at present, poroelastic road pavement that is composed of rubber and mineral aggregate and polyurethane or bituminous binder gives the best noise reduction up to 12 dB. Unfortunately, there are many problems with making durable poroelastic pavements. This article presents the first results of a project that is executed in Poland and aims at the development of a durable, low noise poroelastic pavement based on polymer-modified asphalt binder called Safe, Eco-friendly POroelastic Road Surface (SEPOR). Two test sectionswere built in 2019 to test the production technology and performance of the SEPOR pavement. It is observed that some of the problems with previous poroelastic materials were mainly eliminated (especially delamination from the base layer and raveling) but noise reduction is a little less than expected (up to 9 dB). Rolling resistance for car tires is acceptable and fire properties (damping of spill fuel fires, toxic gas emission) are very good.

Cytowania

  • 1 3

    CrossRef

  • 0

    Web of Science

  • 1 9

    Scopus

Autorzy (7)

Cytuj jako

Pełna treść

pobierz publikację
pobrano 68 razy
Wersja publikacji
Accepted albo Published Version
Licencja
Creative Commons: CC-BY otwiera się w nowej karcie

Słowa kluczowe

Informacje szczegółowe

Kategoria:
Publikacja w czasopiśmie
Typ:
artykuły w czasopismach
Opublikowano w:
Materials nr 13, strony 1 - 24,
ISSN: 1996-1944
Język:
angielski
Rok wydania:
2020
Opis bibliograficzny:
Jaskuła P., Ejsmont J., Stienss M., Ronowski G., Szydłowski C., Świeczko-Żurek B., Ryś D.: Initial Field Validation of Poroelastic Pavement Made with Crumb Rubber, Mineral Aggregate and Highly Polymer-Modified Bitumen// Materials -Vol. 13,iss. 6 (2020), s.1-24
DOI:
Cyfrowy identyfikator dokumentu elektronicznego (otwiera się w nowej karcie) 10.3390/ma13061339
Bibliografia: test
  1. Sandberg, U.; Ejsmont, J. Tyre/Road Noise Reference Book; Informex: Kisa, Sewden, 2002.
  2. Sandberg, U.; Goubert, L.; Biligiri, K.P.; Kalman, B. State-of-the-Art Regarding Poroelastic Road Surfaces, (Deliverable D 8.1) Project PERSUADE; VTI: Linköping, Sweden, 2010.
  3. Goubert, L. Traffic Noise: Can the Poro-Elastic Road Surface Help. Informal Document GRB-62-23. 2015. Available online: https://www.unece.org/fileadmin/DAM/trans/doc/2015/wp29grb/GRB-62-23e.pdf (accessed on 12 December 2019). otwiera się w nowej karcie
  4. Świeczko-Żurek, B.; Ejsmont, J.; Motrycz, G.; Stryjek, P. Risks related to car fire on innovative Poroelastic Road Surfaces-PERS. Fire Mater. 2015, 39, 95-108. [CrossRef] otwiera się w nowej karcie
  5. Leng, C.; Lu, G.; Gao, J.; Liu, P.; Xie, X.; Wang, D. Sustainable green pavement using bio-based polyurethane binder in tunnel. Materials 2019, 12, 1990. [CrossRef] [PubMed] otwiera się w nowej karcie
  6. Voskuilen, J.L.M. Causes of premature ravelling failure in porous asphalt. In Proceedings of the 6th RILEM Symposium PTEBM'03, Zurich, Switzerland, 14-16 April 2003; pp. 191-197. [CrossRef] otwiera się w nowej karcie
  7. Bendtsen, H.; Skov, H. Performance of Eight Poroelastic Test Sections. WP 5 Monitoring. 2015. Available online: http://www.persuadeproject.eu/ (accessed on 14 March 2020).
  8. Huurman, M.; Mo, L.T.; Woldekidan, M.F. Unravelling porous asphalt concrete, towards a mechanistic material design tool. Road Mater. Pavement Des. 2009, 10, 233-262. [CrossRef] otwiera się w nowej karcie
  9. Manrique-Sanchez, L.; Caro, S.; Arámbula-Mercado, E. Numerical modelling of ravelling in porous friction courses (PFC). Road Mater. Pavement Des. 2018, 19, 668-689. [CrossRef] otwiera się w nowej karcie
  10. Jacobson, T.; Sandberg, U.; Viman, L. How do we improve the durability of porous asphalt? In Proceedings of the 6th Eurasphalt Eurobitume Congress, Prague, Czech Republic, 1-3 June 2016. [CrossRef] otwiera się w nowej karcie
  11. Wu, J.P.; Herrington, P.R.; Alabaster, D. Long-term durability of epoxy-modified open-graded porous asphalt wearing course. Int. J. Pavement Eng. 2017, 8436, 1-8. [CrossRef] otwiera się w nowej karcie
  12. Airey, G.D.; Rahman, M.M.; Collop, A.C. Absorption of bitumen into crumb rubber using the basket drainage method. Int. J. Pavement Eng. 2003, 4, 105-119. [CrossRef] otwiera się w nowej karcie
  13. Shen, J.; Li, B.; Xie, Z. Interaction between crumb rubber modifier (CRM) and asphalt binder in dry process. Constr. Build. Mater. 2017, 149, 202-206. [CrossRef] otwiera się w nowej karcie
  14. Moreno, F.; Rubio, M.C.; Martinez-Echevarria, M.J. The mechanical performance of dry-process crumb rubber modified hot bituminous mixes: The influence of digestion time and crumb rubber percentage. Constr. Build. Mater. 2012, 26, 466-474. [CrossRef] otwiera się w nowej karcie
  15. Srirangam, S.K.; Anupam, K.; Casey, D.; Liu, X.; Kasbergen, C.; Scarpas, A.; Researcher, P.D.; Researcher, S.; Engineer, H.D.; House, B.; et al. Evaluation of structural performance of poro-elastic road surfacing pavement subjected to rolling truck tire loads. Transp. Res. Rec. J. Transp. Res. Board. 2016, 2591, 42-56. [CrossRef] otwiera się w nowej karcie
  16. Wang, D.; Schacht, A.; Leng, Z.; Leng, C.; Kollmann, J.; Oeser, M. Effects of material composition on mechanical and acoustic performance of poroelastic road surface (PERS). Constr. Build. Mater. 2017, 135, 352-360. [CrossRef] otwiera się w nowej karcie
  17. James, T.; Watson, D.; Taylor, A.; Tran, N.; Rodezno, C. Improving cohesiveness of porous friction course (PFC) asphalt mixtures. Assoc. Asph. Paving Technol. 2017. [CrossRef] otwiera się w nowej karcie
  18. Świeczko-Żurek, B.; Jaskula, P.; Ejsmont, J.; Kędzierska, A.; Czajkowski, P. Rolling resistance and tyre/road noise on rubberised asphalt pavement in Poland. Road Mater. Pavement Des. 2017, 18, 151-167. [CrossRef] otwiera się w nowej karcie
  19. Wang, D.; Liu, P.; Leng, Z.; Leng, C.; Lu, G.; Buch, M.; Oeser, M. Suitability of PoroElastic Road Surface (PERS) for urban roads in cold regions: Mechanical and functional performance assessment. J. Clean. Prod. 2017, 165, 1340-1350. [CrossRef] otwiera się w nowej karcie
  20. Kalman, B.; Biligiri, K.P.; Sandberg, U. Project PERSUADE: Optimization of poroelastic road surfaces in the laboratory. In Proceedings of the INTER-NOISE 2011, Osaka, Japan, 4-7 September 2011; pp. 1-9.
  21. Goubert, L.; Sandberg, U. The PERSUADE project: Developing the concept of poroelastic road surface into a powerful tool for abating traffic noise. In Proceedings of the INTER-NOISE 2010, Lisbon, Portugal, 15-16 June 2010; pp. 1-10.
  22. Ejsmont, J.;Świeczko-Żurek, B. Poroelastic material for urban roads wearing courses. In Proceedings of the 3rd International Conference on Materials Engineering and Functional Materials (ICMFM 2019), Hue, Vietnam, 4-6 May 2019. otwiera się w nowej karcie
  23. International Organization for Standardization (ISO). Acoustics-Measurement of the Influence of Road Surfaces on Traffic Noise-Part 3: Reference Tyres; otwiera się w nowej karcie
  24. ISO/TS 11819-3:2017; ISO: Genève, Switzerland, 2017. otwiera się w nowej karcie
  25. Świeczko-Żurek, B.; Goubert, L.; Ejsmont, J.; Ronowski, G. Poroelastic road surfaces-State of the art. In Proceedings of the Rubberized Asphalt Rubber, Kruger Park, South Africa, 26-28 September 2018.
  26. Goubert, L. A new test track with the ultra noise reducing poroelastic road surface (PERS) in Gent, Belgium. In Proceedings of the INTER-NOISE, Madrid, Spain, 16-19 June 2019.
  27. Mioduszewski, P. Poroelastic Road Surface-A Promising Road Traffic Noise Abatement Solution; POSTĘPY AKUSTYKI;
  28. Marszal, J., Ed.; Polskie Towarzystwo Akustyczne Oddział Gdański: Gdańsk, Poland, 2018; pp. 80-85. otwiera się w nowej karcie
  29. Mioduszewski, P. Raport Techniczny z Badań Drogowych Hałaśliwości Nawierzchni Poroelastycznej Oraz Referencyjnej w Gdańsku na Ulicy Galaktycznej; Project SEPOR Report No. R18-SEPOR PG WM-10; Gdańsk University of Technology: Gdańsk, Poland, 2019.
  30. Meiarashi, S. Porous elastic road surface as an ultimate highway noise measure. In Proceedings of the XXIInd PIARC World Road Congress, Durban, South Afria, 19-25 October 2003; Available online: https://scinapse.io/papers/658997683 (accessed on 27 December 2019). otwiera się w nowej karcie
Źródła finansowania:
Weryfikacja:
Politechnika Gdańska

wyświetlono 155 razy

Publikacje, które mogą cię zainteresować

Further development of the poroelastic road surface within the new Polish project SEPOR

2019

Ultra Low Noise Poroelastic Road Surfaces

2016

Poroelastic Road Surfaces - State of The Art

2018

Poroelastic Low Noise Road Surfaces

2015
Meta Tagi