New analytical solution of flow and heat refraction problem in multilayer pavement

Mirosław Graczyk; Józef Rafa; Leszek Rafalski; Adam Zofka

doi:10.7409/rabdim.014.003

Published: 2014-02-01

Vol. 13 No. 1 (2014)

New analytical solution of flow and heat refraction problem in multilayer pavement

Mirosław Graczyk , Józef Rafa , Leszek Rafalski , Adam Zofka

Section: Articles

https://doi.org/10.7409/rabdim.014.003

Abstract

The paper covers a new analytical solution of a flow and refraction problem in a multilayer pavement. The solution includes conditions of internal and external exchange as well as cyclic temperature and heat flux changes. Solution of a problem of heat conduction in a multilayer system showed a significant influence of coefficients introduced by the authors on the temperature and thermal stresses field in structure of a multilayer pavement. The coefficients were: diffusivity, thermal matching of layers and thermal refraction of layers. It was found that solar radiation is very important climatic factor acting directly on the upper layer of pavement, causing an increase in temperatures and creation of an additional temperature gradient in a multilayer pavement. It is shown that temperature field in a multilayer pavement depends significantly on geometry of layers structure, thermal characteristics of upper and lower layers expressed by Biot and Fourier numbers, colour of a surface course, humidity, velocity of wind etc., which are expressed by value of an external heat transfer coefficient. Moreover, an original example of analysis of an influence of pavement layer and subgrade parameters as well as climatic conditions on the temperature field in three different pavement structures, is shown. Results of the presented analysis can be directly applied in roads and airstrips pavements design.

Keywords:

Biot number, Fourier number, heat flow and refraction, multilayer pavement, refraction coefficient, thermal matching

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Graczyk, M., Rafa, J., Rafalski, L., & Zofka, A. (2014). New analytical solution of flow and heat refraction problem in multilayer pavement. Roads and Bridges - Drogi I Mosty, 13(1), 33–48. https://doi.org/10.7409/rabdim.014.003

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References

Moon P., Spencer D.E.: Field theory for engineers. D. Van Nostrand Company, Princeton USA, 1961
Google Scholar

Southgate H.F.: An evaluation of temperature distribution of asphalt pavements and its relationship to pavement deflection. MSCE Thesis, University of Kentucky, Lexington, Kentucky, USA, 1968
Google Scholar

Stubstad R.N., Baltzer S., Lukanen E.O., Ertman- Larsen H.J.: Prediction of AC mat temperature for routine load/deflection measurements. 4th International Conference on Bearing Capacity of Road and Airfields, Minnesota, USA, 1994
Google Scholar

Lukanen E.O., Stubstad R.N., Briggs R.: Temperature prediction and adjustment factors for asphalt pavement. Report No FHWA-RD-98-085, Federal Highway Administration. McLean Virginia, USA, 2000
Google Scholar

Sybilski D., Mirski K.: Zalecane lepiszcza asfaltowe w warstwach nawierzchni w Polsce z uwzględnieniem warunków klimatycznych i obciążenia ruchem. Prace IBDiM, 1-2/2000, 103-157
Google Scholar

Park D.Y., Buch N., Chatti K.: Development of effective layer temperature prediction model and temperature correction using FWD deflections. Transportation Research Record 1764, Washington 2001
Google Scholar

Mieczkowski P.: Model fizyczny obliczania temperatury górnej warstwy nawierzchni asfaltowej. Drogownictwo, LVI, 8, 2001, 230-235
Google Scholar

Hermansson A.: Simulation of asphalt concrete pavement temperatures for use with FWD. Road Materials and Pavement Design, 3, 3, 2002, 281-297
Google Scholar

Rafalski L.: Podłoże nawierzchni drogowej. Inżynieria Morska i Geotechnika, 3, 2009, 190-193
Google Scholar

Wistuba M.: Determining design temperatures for asphalt pavements. Road Materials and Pavement Design, 4, 3, 2003, 341-349
Google Scholar

Wistuba M., Blab R., Litzka J.: Oberbauverstarkung Von Asphaltstrassen. Methodenüberblick und Ableitung von Klimadaten für die analytische Bemessung. TU-Wien, 2004
Google Scholar

Górszczyk J., Grzybowska W.: Analizy termiczne asfaltowej nawierzchni drogowej z wykorzystaniem MES. Roads and Bridges - Drogi i Mosty, 10, 4, 2011, 7-30
Google Scholar

Wang D., Roesler J.R., Guo D.Z.: Analytical Approach to Predicting Temperature Fields in Multilayered Pavement Systems. Journal of Engineering Mechanics, 135, 4, 2009, 334-344
Google Scholar

Hall M.R., Dawson A.R., Grenfell J., Isola R.: Influence of the Thermophysical Properties of Pavement Materials on the Evolution of Temperature Depth Profiles in Different Climatic Regions. Journal of Materials in Civil Engineering, 24, 1, 2012, 32-47
Google Scholar

Bryant P., Denneman E.: Improved Design Procedures for Asphalt Pavements: Pavement Temperature and Load Frequency Estimation. Austroads Technical Reports AP - T248 - 13, September 2013, Sydney, Australia, 2013
Google Scholar

Graczyk M., Rafa J.: Wybrane aspekty zachowania się nawierzchni podatnych w modelach materiałów termolepkosprężystych. Roads and Bridges - Drogi i Mosty, 9, 2, 2010, 5-15
Google Scholar

Graczyk M.: Nośność konstrukcji nawierzchni wielowarstwowych w krajowych warunkach klimatycznych. Studia i Materiały, Zeszyt 63, IBDiM, Warszawa, 2010
Google Scholar

Nowacki W.: Termosprężystość. PWN, Warszawa, 1970
Google Scholar

Piskorek A.: Fourier and Laplace’a transform and its applications. PWN, Warsaw, 1991
Google Scholar

Mirosław Graczyk

mgraczyk@ibdim.edu.pl

Affiliation:

Road and Bridge Research Institute, Warsaw

Józef Rafa

Affiliation:

Military University of Technology, Warsaw

Leszek Rafalski

Affiliation:

Road and Bridge Research Institute, Warsaw

Adam Zofka

Affiliation:

Road and Bridge Research Institute, Warsaw

New analytical solution of flow and heat refraction problem in multilayer pavement

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Keywords:

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Mirosław Graczyk

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Leszek Rafalski

Adam Zofka