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Effect of Aging on the Rheological Properties of Blends of Virgin and Rejuvenated RA Binders Read chapter Read first chapter

2022 | OriginalPaper | Chapter

Determination of Thermal Stresses in Asphalt Layers as a Problem of Thermo-elasticity and Unsteady Heat Flow

Authors : Marcin Gajewski, Wojciech Bańkowski, Beata Gajewska

Published in: Proceedings of the RILEM International Symposium on Bituminous Materials

Publisher: Springer International Publishing

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Abstract

The paper presents solutions for thermo-elasticity problems with an unsteady heat flow for various layered systems typical for Polish traffic categories KR4 and KR7. The tasks were solved assuming a plain strain case for material parameters, which in most cases were determined in a laboratory tests, under thermal type of loading, which simulates an extremely unfavorable weather condition. For the selected structural variants, the resulting stress state was analyzed in relation to the determined tensile stress limits for individual mixture materials. In half analyzed cases, exceeding the material tensile strength in second layer (L2) was observed only as a result of the decreasing temperature.

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previous chapter Determination of Epoxy Resin Concentration in Epoxy Modified Bitumens
next chapter Determining the Prominence of Texture Scales on Road Skid Resistance
Literature
1.
Gajewski, M., Langlois, P.-A.: Prediction of asphalt concrete low-temperature cracking resistance on the basis of different constitutive models. Proc. Eng. 91, 81–86 (2014)CrossRef
2.
Nowacki, W.: Thermoelasticity. Pergamon Press, PWN Polish Scientific Publishers, Warsaw, Poland (1986)MATH
3.
Catalogue of typical flexible and semi-rigid pavement structures. Gdansk Univ. of Technology, GDDKiA (2013), (in polish)
4.
Bańkowski, W.: Characteristics of Properties and Application of High Modulus Asphalt Concrete in Road Pavement Structures. IBDiM, Warsaw (2019), (in polish)
5.
Szwed, A., Kamińska, I.D.: Mitigation of low-temperature cracking in asphalt pavement by selection of material stiffness. Proc. Eng. 111, 748–755 (2015)CrossRef
6.
Bańkowski, W., Gajewski, M., Horodecka, R., Mirski, K.: Laboratory assessment of low temperature resistance of high modulus asphalt concrete in relation to climatic conditions in Poland, ISBM Lyon 2020: International Symposium on Bituminous Materials (in print) (2020)
7.
Mieczkowski, P.: Heat transfer coefficient of asphalt mixtures. Insulations. 6 (2013), (in polish)
8.
Judycki, J., Jaskuła, P., Dołżycki, B., Pszczoła, M., Jaczewski, M., Ryś, D., Stienss, M.: Investigation of low-temperature cracking in newly constructed high-modulus asphalt concrete base course of a motorway pavement. RMPD 4, 362–388 (2015)
Metadata
Title
Determination of Thermal Stresses in Asphalt Layers as a Problem of Thermo-elasticity and Unsteady Heat Flow
Authors
Marcin Gajewski
Wojciech Bańkowski
Beata Gajewska
Copyright Year
2022
Book
Proceedings of the RILEM International Symposium on Bituminous Materials

Print ISBN: 978-3-030-46454-7

Electronic ISBN: 978-3-030-46455-4

Copyright Year: 2022

DOI
https://doi.org/10.1007/978-3-030-46455-4_69