Reconstructing Airport Pavements Using the Technology of Prefabricated Concrete Slab
References
- [1] Nita P., Construction and maintenance of airport pavements, Wydawnictwo Komunikacji i Łączności, Warszawa 2008.
- [2] Shiraz Tayabji, Precast Concrete Pavement Innovations, Performance and Best Practices, Conference Paper, September 2014.
- [3] Poświata A., Wesołowski M., Kowalska D., Modern concrete airport pavements in Poland – selected issues, Konferencja Dni Betonu, 2014.
- [4] Poświata A., Wesołowski M., Airfield pavements as an element of critical infrastructure in the airport safety management process, „Przegląd komunikacyjny” 11/2017.10.35117/A_ENG_17_11_04
- [5] Nita P., Wesołowski M., Selection of parameters and indices characterising the degradation degree of slabs constituting elements of airport pavements made from cement concrete, based on the data obtained from exploited facilities, ITWL, Warsaw 2016.
- [6] Nita P., Concrete airport pavements, „Theory and Structural Dimensioning”, Wydawnictwo Instytutu Technicznego Wojsk Lotniczych, Warszawa 2005.
- [7] Wesołowski M., Poświata A., Jakubek M., Fast technologies for restoring the technical condition of damaged cement concrete airfield pavements, IX Konferencja Dni Betonu, Wisła 2016.
- [8] Wesołowski M., Świerzewski B., Kowalewska A., Jakubek M., Prefabricated airport slab – an effective technology for restoring the load-bearing capacity of degraded airfield pavements made of cement concrete, X Konferencja Dni Betonu, Wisła 2018.
- [9] PN-EN 12390-3: 2019-07 Concrete tests - Part 3: Compressive strength of test samples.
- [10] Skramtajew B.G., Determining concrete strength for control of concrete structures, Journal of ACI, Vol. 34, 1938, p. 285.10.14359/8451
- [11] Defense Standard NO-17-A204: 2015 Airfield pavements – cement concrete pavements – Requirements and test methods.
- [12] PN-EN 12390-5: 2019-08 Concrete tests – Part 5: Bending strength of test specimens.
- [13] PN-88/B-06250 Normal Concrete.
- [14] PN-B-06265:2018-10 Concrete, Requirements, properties, production and compliance, National complement PN-EN 206+A1:2016-12.
- [15] Defense Standard NO-17-A500:2016 Airport and road surfaces. Load capacity tests.
- [16] Wesołowski M., Blacha K., Evaluation of the carrying capacity of airport pavements using the ACN-PCN method. Prace Naukowe ITWL, 35, 2014. pp. 5-21.10.1515/afit-2015-0001
- [17] Wesołowski M., Blacha K., Iwanowski P., Analysis of Load Bearing Capacity of Cement Concrete Airfield Pavement’s Construction in Relation to its’ Changes of Physico-Mechanical Parameters, IOP Conference Series: Materials Science and Engineering, Vol. 603, Issue 5, 2019.10.1088/1757-899X/603/5/052055
- [18] Wesołowski M., Iwanowski P., APCI Evaluation Method for Cement Concrete Airport Pavements in the Scope of Air Operation Safety and Air Transport Participants Life, „International Journal of Environmental Research and Public Health”, Vol. 17, Issue 5, 1663, 2020.10.3390/ijerph17051663708480832143386
- [19] Annex 14 ICAO to the Convention on International Civil Aviation, Airports Volume I – Design and operation of airports, wydanie 7, lipiec 2016.
- [20] Aerodrome Design Manual Part 3, Pavements, ICAO, Doc-9157-AN/901.
- [21] ICAO Standard 9137-AN/898 Part 2 Airport Service Manual.
- [22] Linek M., Wesołowski M., Selected aspects of evaluating the technical condition of concrete airport pavements in terms of service life, Structure & Environment, 11 (4), pp. 265-27710.30540/sae-2019-020
Language: English
Page range: 111 - 123
Submitted on: Aug 28, 2020
Accepted on: Sep 24, 2020
Published on: Dec 12, 2020
Published by: Kielce University of Technology
In partnership with: Paradigm Publishing Services
Publication frequency: 4 issues per year
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© 2020 Bartosz Świerzewski, published by Kielce University of Technology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.