Application of zeolites as fillers in mix asphalt
Agnieszka Woszuk
Department of Roads and Bridges; Faculty of Civil Engineering and Architecture; Lublin University of Technology (Poland)
https://orcid.org/0000-0003-4854-8553
Lidia Bandura
Department of Geotechnical Engineering; Faculty of Building Engineering and Architecture; Lublin University of Technology (Poland)
https://orcid.org/0000-0002-8284-9272
Rafał Panek
Department of Geotechnical Engineering; Faculty of Building Engineering and Architecture; Lublin University of Technology (Poland)
https://orcid.org/0000-0002-0555-6097
Abstract
The aim of this paper is estimation of the effect of zeolites addition on properties of asphalt and examination of possible application of zeolites in mix asphalt as a filler. The addition of zeolites to the mix asphalt is one of the ways used for reduction of technological temperatures by asphalt foaming. At the same time the zeolite material replaces the filler. The paper presents the results of studies on the synthetic zeolite NaP1, natural zeolite- clinoptilolite and mineral filled.
Keywords:
zeolite, warm mixed asphalt, mineral filler, mineral filled asphaltReferences
Franus W. Characterization of X-type zeolite prepared from coal fly ash. Polish Journal of Environmental Studies 21(2) (2012) 337–343.
Google Scholar
Wdowin M., Franus W., Panek R. Preliminary results of usage possibilities of carbonate and zeolitic sorbents in CO2 capture. Fresenius Environmental Bulletin 21(12) (2012) 3726–3734.
Google Scholar
Chałupnik S., Franus W., Wysocka M., Gzyl G. Application of zeolites for radium removal from mine water. Environmental Science and Pollution Research 20 (2013) 7900–7906, DOI 10.1007/s11356-013-1877-5.
Google Scholar
Materiały informacyjne firmy Aspha-min, dostępne na stronie http://www.aspha-min.com/98.html.
Google Scholar
Deutscher Asphaltverbande.V.; Mieszanki mineralno asfaltowe o obniżonej temperaturze. Porady z praktyki do praktyki, 2009.
Google Scholar
Hurley G., Prowell B. Evaluation of potential processes for use in warm asphalt mixes. Journal of the Association of Asphalt Paving Technologists 75 (2006) 41–85.
Google Scholar
Barthel W., Marchand J., Von Devivere M. Warm mix asphalt by adding a synthetic zeolite. Proceedings of the 3rd Eurasphalt and Eurobitume Conference, Book 1, Foundation Eurasphalt, Breukelen, The Netherlands, 2004, 1241–1249.
Google Scholar
Kavussi A., Hicks R.G. Properties of bituminous mixtures containing different fillers. Proc Assoc Asphalt Paving Technol 66 (1997) 153–186.
Google Scholar
Chen M, Lin J, Wu S, Liu C. Utilization of recycled brick powder as alternative filler in asphalt mixture. Constr Build Mater 25(4) 2011 1532–1536.
Google Scholar
Faheem A.F., Hintz C., Bahia H., Al-Qadi I.L. Influence of filler fractional voids on mastic and mixture performance. Transportation Research Record: Journal of the Transportation Research Board, No. 4264, Transportation Research Board of the National Academies, Washington, D.C. 2012, 74–80.
Google Scholar
Sengoz B., Ali Topal A., Gorkem C. Evaluation of natural zeolite as warm mix asphalt additive and its comparison with other warm mix additives. Construction and Building Materials 43 (2013) 242–252.
Google Scholar
Kukiełka J., Woszuk A., Franus W. Mieszanki mineralno-asfaltowe o obniżonej temperaturze produkcji z dodatkiem zeolitów. Budownictwo i Architektura, 13(4) (2014) 161–168.
DOI: https://doi.org/10.35784/bud-arch.1754
Google Scholar
Piłat J., Radziszewski P. Nawierzchnie asfaltowe. Wydawnictwa Komunikacji i Łączności, Warszawa 2004.
Google Scholar
Piłat J. Wpływ właściwości mączek mineralnych na kształtowanie cech technicznych kompozytów mineralno-asfaltowych. Wydawnictwa Politechniki Warszawskiej, Warszawa 1994.
Google Scholar
Little D.N., Petersen J.C. Unique effects of hydrated lime filler on the performance-related properties of asphalt cements: physical and chemical interactions revisited. J Mater Civ Eng 17(2) (2005) 207–218.
Google Scholar
Grabowski W., Wilanowicz J., Andrzejczak M., Bilski M.Warunki zastosowania popiołu lotnego jako wypełniacza do mieszanek mineralno – asfaltowych. Budownictwo i Architektura 13(1) (2014) 181–190.
DOI: https://doi.org/10.35784/bud-arch.1938
Google Scholar
Grabowski W., Słowik M., Wilanowicz J., Soból T. Właściwości strukturalne i funkcjonalne wypełniaczy z instalacji odpylania gazów wytwórni mieszanek mineralno-asfaltowych. Zeszyty Naukowe Politechniki Gdańskiej. Budownictwo Lądowe 60 (2006) 161–168.
Google Scholar
Serkan T. Mechanical evaluation of asphalt-aggregate mixtures prepared with fly ash as filler replacement. Can J Civ Eng 35(1) (2008) 27–40.
DOI: https://doi.org/10.1139/L07-082
Google Scholar
Chen M., Lin J., Wu S., Liu C. Utilization of recycled brick powder as alternative filler in asphalt mixture. Constr Build Mater 25(4) (2011) 1532–1536.
DOI: https://doi.org/10.1016/j.conbuildmat.2010.08.005
Google Scholar
PN-EN 1097-7. Badania mechanicznych i fizycznych właściwości kruszyw – Część 7: Oznaczanie gęstości wypełniacza – Metoda piknometryczna.
Google Scholar
PN-EN 1097-5. Badania mechanicznych i fizycznych właściwości kruszyw – Część 5: Oznaczanie zawartości wody przez suszenie w suszarce z wentylacją.
Google Scholar
PN-EN 196-6. Metody badania cementu – 6: Oznaczanie stopnia zmielenia.
Google Scholar
PN-EN 1426:2009. Asfalty i lepiszcza asfaltowe – Oznaczanie penetracji igłą.
Google Scholar
PN-EN 1427:2009. Asfalty i lepiszcza asfaltowe – Oznaczanie temperatury mięknienia - Metoda Pierścień i Kula.
Google Scholar
ASTM D 4402. Standard Test Method for Viscosity Determination of Asphalt at Elevated Temperatures Using a Rotational Viscometer.
Google Scholar
Sengoz B., Ali Topal A., Gorkem C. Evaluation of natural zeolite as warm mix asphalt additive and its comparison with other warm mix additives. Construction and Building Materials 43 (2013) 242–252.
Google Scholar
PN-EN 13179-1. Badania kruszyw wypełniających stosowanych do mieszanek bitumicznych – Część 1: Badanie metodą pierścienia delta i kuli.
Google Scholar
Franus W., Dudek K. Clay minerals and clinoptilolite of Variegated Shales Formation of the Skole Unit. Polish Flysch Carpathians. Geologica Carpathica 50 (1999) 23–24.
Google Scholar
Kruszywa do mieszanek mineralno-asfaltowych i powierzchniowych utrwaleń na drogach krajowych. Wymagania techniczne WT1 2010.
Google Scholar
Authors
Agnieszka WoszukDepartment of Roads and Bridges; Faculty of Civil Engineering and Architecture; Lublin University of Technology Poland
https://orcid.org/0000-0003-4854-8553
Authors
Lidia BanduraDepartment of Geotechnical Engineering; Faculty of Building Engineering and Architecture; Lublin University of Technology Poland
https://orcid.org/0000-0002-8284-9272
Authors
Rafał PanekDepartment of Geotechnical Engineering; Faculty of Building Engineering and Architecture; Lublin University of Technology Poland
https://orcid.org/0000-0002-0555-6097
Statistics
Abstract views: 231PDF downloads: 120
License
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Budownictwo i Architektura supports the open science program. The journal enables Open Access to their publications. Everyone can view, download and forward articles, provided that the terms of the license are respected.
Publishing of articles is possible after submitting a signed statement on the transfer of a license to the Journal.
