Abstract
Towards the end of the last century a new system of bitumen grading was developed and implemented as part of the American Strategic Highway Research Program (SHRP). Its aim was to better adjust the testing methods and requirements for road bitumens to the actual conditions in which those bitumens serve in road pavements. Currently in Poland, similarly as in the other EU countries, road bitumens are tested and classified with regard to mainly the penetration value determined at the temperature of 25C. It should be noted that this classification is not correlated with the climatic conditions in which the bitumens are to serve in the road pavement. This paper presents the results of analyses concerning the determination of the temperatures at which bituminous binders serve in the Polish climatic conditions. A division of the area of Poland into climatic zones depending on the required performance grades (PGs) determined for bitumens on the basis of climatic data from 61 meteorological stations for a period of minimum 20 years is presented. It is proposed to select bitumens depending on the climatic zone in Poland, taking into account the proper probability level which follows from the road class.
Citations
-
0
CrossRef
-
0
Web of Science
-
2 6
Scopus
Authors (3)
Cite as
Full text
- Publication version
- Accepted or Published Version
- License
- open in new tab
Keywords
Details
- Category:
- Articles
- Type:
- artykuły w czasopismach recenzowanych i innych wydawnictwach ciągłych
- Published in:
-
Roads and Bridges - Drogi i Mosty
no. 16,
edition 4,
pages 245 - 269,
ISSN: 1643-1618 - Language:
- English
- Publication year:
- 2017
- Bibliographic description:
- Pszczoła M., Ryś D., Jaskuła P.: ANALYSIS OF CLIMATIC ZONES IN POLAND WITH REGARD TO ASPHALT PERFORMANCE GRADING// Drogi i Mosty. -Vol. 16., iss. 4 (2017), s.245-269
- DOI:
- Digital Object Identifier (open in new tab) 10.7409/rabdim.017.016
- Bibliography: test
-
- Xie N., Shi X.: Evaluation of Plus Grades of Perfor- mance Graded (PG) Asphalt Binder. Research Bureau, New Mexico Department Of Transportation, Report NM14-MSC-01-008, 2014 open in new tab
- Leahy R.B., Cramer S.B.: Superpave Binder Implemen- tation. Final Report SPR 353, Oregon State University, 1999 open in new tab
- Prowell B.D.: Selection and Evaluation of Perfor- mance-Graded Asphalt Binders for Virginia. Virginia Transportation Research Council, Virginia Department of Transportation and the University of Virginia, Report No. VTRC 99-R21, 1999
- Leahy R.B., Briggs R.N.: Superpave -Washington DOT's Assessment and Status. Washington Department of Transportation, Report No. WA-RD 486.1, 1999 open in new tab
- Guide for Specifying Asphalt Pavements for Local Governments. Asphalt Pavement Association of Indi- ana, 2009 open in new tab
- Nam K., Bahia H.U.: Development of Guidelines for PG Binder Selection for Wisconsin. Research Study No. 0092-01-01, University of Wisconsin -Madison, Wis- consin Department of Transportation, 2004
- Floyd J., Golden K., McMurry R.: Standard Specifica- tions Construction of Transportation Systems. Georgia Department of Transportation, 2013
- Mills B.N., Tighe S.L., Andrey J., Smith J.T., Huen K.: Climate Change Implications for Flexible Pavement Design and Performance in Southern Canada. Journal of Transportation Engineering, ASCE, 135, 10, 2009 open in new tab
- Mirza M.W., Zahid A., Rizvi M.A.: Temperature Zoning of Pakistan for Asphalt Mix Design. Pakistan Journal of Engineering and Applied Sciences, 8, 2011, 49-60
- Mampearachchi W.K., Mihirani G.S., Binduhewa B.W.P., Lalithya G.D.D.: Review of asphalt binder grading sys- tems for hot mix asphalt pavements in Sri Lanka. Jour- nal of the National Science Foundation of Sri Lanka, 40, 4, 2012, 311-320 open in new tab
- Khedr S., Saudy M., Khafagy M.: Development of as- phalt binder Performance Grades. Proceedings of the 2 nd Australasia and South East Asia Structural Engi- neering and Construction Conference, Bangkok, Thai- land, 2014, 393-398 open in new tab
- Hassan F.H., Al-Nuaimi A., Al-Oraimi S., Jafar T.M.A.: Development of asphalt binder performance grades for Omani climate. Construction and Building Materials, 22, 8, 2008, 1684-1690 open in new tab
- Charoentham N., Kanitpong K.: Development of a Per- formance Grading System for Asphalt Binders used in Thailand. Asian Transport Studies, 2, 2, 2012, 121-138
- Superpave Performance Graded Asphalt Binder Speci- fication and Testing. Asphalt Institute, Superpave Se- ries No. 1 (SP-1), 1995 open in new tab
- Sarnowski M.: Rheological properties of road bitumen binders modified with SBS polymer and polyphosphoric acid. Roads and Bridges -Drogi i Mosty, 14, 1, 47-65
- Jasku³a P., Pszczo³a M., Judycki J., Ryoe D., Do³¿ycki B., Jaczewski M.: Asfalty drogowe i modyfikowane w pol- skich warunkach klimatycznych. Zadanie 1: Ocena wa- runków klimatycznych polski w aspekcie doboru rodzaju funkcjonalnego asfaltu do warstw nawierzchni drogowych. Raport badawczy z Zadania 1, grantu RID nr: OT1-1B/PW-PG-IBDiM, Politechnika Gdañska, 2016 open in new tab
- AASHTO M 320-10: Standard Specification for Perfor- mance-Graded Asphalt Binder. American Association of State Highway and Transportation Officials, 2010 open in new tab
- Sybilski D., Mirski K.: Dobór asfaltu do nawierzchni w polskich warunkach klimatycznych z uwzglêdnie- niem procedur SHRP/Superpave. VI Miêdzynarodowa Konferencja "Trwa³e i Bezpieczne Nawierzchnie Dro- gowe", Kielce, 9-10 maja, 2000 open in new tab
- Sybilski D.: Zastosowanie metod SHRP do oceny na- wierzchni dróg w Polsce. Studia i materia³y, Zeszyt 50, IBDiM, Warszawa, 2000
- Sybilski D.: Evaluation of low temperature properties of bituminous binders and asphalt mixtures. Roads and Bridges -Drogi i Mosty, 3, 2, 2004, 87-119 open in new tab
- Pi³at J., Radziszewski P.: Nawierzchnie asfaltowe. Wy- dawnictwa Komunikacji i £¹cznooeci, Warszawa, 2004
- B³a¿ejowski K., Styk S.: Technologia warstw asfalto- wych. Wydawnictwa Komunikacji i £¹cznooeci, War- szawa, 2004
- Gawe³ I., Kalabiñska M., Pi³at J.: Asfalty drogowe. Wy- dawnictwa Komunikacji i £¹cznooeci, Warszawa, 2001
- Solaimanian M., Bolzan P.: Analysis of the Integrated Model of Climatic Effects on Pavements. Report No. SHRP-A-637, Strategic Highway Research Program. National Research Council. Washington, D.C., 1993 open in new tab
- Solaimanian M.: Development of SHRP Asphalt Research Program Climatic Databases. Report SHRP-A-685, Strategic Highway Research Program, National Research Council, Washington, D.C., 1994 open in new tab
- Mohseni A.: LTPP Seasonal Asphalt Concrete (AC) Pavement Temperature Models. Federal Highway Ad- ministration, Report FHWA-RD-97-103, 1998
- LTPP Data Analysis: Improved Low Pavement Tem- perature Prediction. Federal Highway Administration, Report No. FHWA-RD-97-104, 1998 open in new tab
- The Asphalt Binder Handbook. Asphalt Institute, Man- ual Series No. 26 (MS-26), 2011 open in new tab
- FHWA Program LTPPBind: https://www.fhwa.dot.gov /Research/tfhrc/programs/infrastructure/pavements/ltpp/ install.cfm, U.S. Department of Transportation, Federal Highway Administration open in new tab
- Katalog Typowych Konstrukcji Nawierzchni Podatnych i Pó³sztywnych. GDDKiA, Zarz¹dzenie nr 31 General- nego Dyrektora Dróg Krajowych i Autostrad z dnia 16.06.2014 r. open in new tab
- Pszczo³a M., Judycki J., Ryoe D.: Evaluation of pavement temperatures in Poland during winter conditions. Trans- portation Research Procedia, 14, 2016, 738-747 open in new tab
- AASHTO MP 19: Performance-Graded Asphalt Binder using Multiple Stress Creep Recovery (MSCR) Test, American Association of State Highway and Transpor- tation Officials, 2012 open in new tab
- Verified by:
- Gdańsk University of Technology
seen 109 times
Recommended for you
Low-Temperature Requirements for Bitumen in Central East European Road Construction
- P. Radziszewski,
- M. Sarnowski,
- J. Król
- + 4 authors
Performance Evaluation of Asphalt Binder Modified with Shear Thickening Fluid
- T. Hassan,
- N. Ahmad,
- D. Khan
- + 3 authors