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Paint coatings in military applications general characteristics

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article presents an overview of research conducted on the development of camouflage coating systems in the range of ultraviolet, visible, near infrared and radar waves, as well as operational tests of these systems. Among other things, the influence of temperature on coating systems and tests in chambers with cyclically changing conditions is presented.
Wydawca
Rocznik
Strony
285--293
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
  • Kelce University of Technology, F.H. Barwa, Poland
Bibliografia
  • 1. Borkowski, S., Ulewicz, R., Selejdak, J., Konstanciak, M., Klimecka-Tatar, D., 2012. The use of 3x3 matrix to evaluation of ribbed wire manufacturing technology, METAL 2012 - 21st International Conference on Metallurgy and Materials, 1722-1728
  • 2. Huanzheng Z. et al., 2021. Multispectral camouflage for infrared, visible, lasers and microwave with radiative cooling. Nature Communications, 12, art. 1805. DOI: 10.1038/s41467-021-22051-0
  • 3. Kotnarowska, D., 2010. Powłoki ochronne, Wydawnictwo Politechniki Radomskiej, Radom, Poland.
  • 4. Lance C. Kelly, 2020. Low-Emissivity Topcoats for the Reduction of Thermal Infrared Emissions from Military Platforms, CoatingsTech, April 2020, 18-31.
  • 5. Laprus M. Leksykon wiedzy wojskowej. Wydawnictwo MonI 1979.
  • 6. Michalski M. et al., 2023. The Influence of Operational Exposure on Changes in Parameters of Effective Camouflage of Coatings Used in Military Technology, Advances in Science and Technology Research Journal, 17(1), 182-196. DOI: 10.12913/22998624/156940
  • 7. Pacana, A., Czerwinska, K., Dwornicka, R., 2021. Analysis of quality control efficiency in the automotive industry, Transportation Research Procedia, 55, 691-698. DOI: 10.1016/j.trpro.2021.07.037
  • 8. Pietraszek, J., Radek, N., Goroshko, A.V., 2020. Challenges for the DOE methodology related to the introduction of Industry 4.0, Production Engineering Archives, 26(4), 190 194. DOI: 10.30657/pea.2020.26.33
  • 9. Radek, M., Pietraszek, A., Kozień, A., Radek, K., Pietraszek, J., 2023. Matching Computational Tools to User Competence Levels in Education of Engineering Data Processing, Materials Research 10.21741/9781644902691-52
  • 10. Radek, N., 2009. Determining the operational properties of steel beaters after electrospark deposition, Eksploatacja i Niezawodnosc, 44(4), 10-16.
  • 11. Radek N. 2023. Powłoki do zastosowań w technice wojskowej technologie wytwarzania i właściwości, Monogafia M160, 2023.
  • 12. Radek, N., Antoszewski, B., 2009. The influence of laser treatment on the properties of electro-spark deposited coatings, Kovove Materialy, 47(1), 31-38.
  • 13. Radek, N., Michalski, M., Mazurczuk, R., Szczodrowska, B., Plebankiewicz, I., Szczepaniak, M., 2023. Operational tests of coating systems in military technology applications, Eksploatacja i Niezawodnosc - Maintenance and Reliability, 25(1), art.12. DOI: 10.17531/ein.2023.1.12
  • 14. Radek, N., Pietraszek, J., Goroshko, A., 2018. The impact of laser welding parameters on the mechanical properties of the weld, AIP Conference Proceedings, 2017, art.020025. DOI: 10.1063/1.5056288
  • 15. Radek, N., Pietraszek, J., Pasieczynski, Ł., 2019. Technology and application of anti graffiti coating systems for rolling stock, METAL 2019 - 28th Int. Conf. on Metallurgy and Materials, 1127-1132. DOI: 10.37904/metal.2019.909
  • 16. Radek, N., Pietraszek, J., Szczotok, A., Fabian, P., Kalinowski, A., 2020. Microstructure and tribological properties of DLC coatings, Materials Research Proceedings, 17, 171 176. DOI: 10.21741/9781644901038-26
  • 17. Radek, N., Tokar, D., Kalinowski, A., Pietraszek, J., 2021. Influence of laser texturing on tribological properties of DLC coatings, Production Engineering Archives, 27(2), 119 123. DOI: 10.30657/pea.2021.27.15
  • 18. Radek, N., Wajs, E., Luchka, M., 2008. The WC-Co electrospark alloying coatings modified by laser treatment, Powder Metallurgy and Metal Ceramics, 47(3-4), 197-201. DOI: 10.1007/s11106-008-9005-7
  • 19. Scendo, M., Radek, N., Trela, J., 2013. Influence of laser treatment on the corrosive resistance of WC-Cu coating produced by electrospark deposition, International Journal of Electrochemical Science, 8(7), 9264-9277.
  • 20. Scendo, M., Trela, J., Radek, N., 2012. Purine as an effective corrosion inhibitor for stainless steel in chloride acid solutions, Corrosion Reviews, 30(1-2), 33-45. DOI: 10.1515/CORRREV-2011-0039
  • 21. Suchart S., 2023. A review on lightweight materials for defence applications: Present and future developments, Defence Technology, 24, 1-17.
  • 22. Szczodrowska B., Mazurczuk R., 2021. A review of modern materials used in military camouflage within the radar frequency range, Technical Transactions, 118, art. e2021003. DOI: 10.37705/TechTrans/e2021003
  • 23. Ulewicz, R., 2018. Outsorcing quality control in the automotive industry, MATEC Web of Conf., 183, art.03001. DOI: 10.1051/matecconf/201818303001
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-00591ee9-3f97-4728-aadd-d4c942716030
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