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Redakcja Naukowa, Bielawski R. and Grend B. “Bezpieczeństwo lotnicze w aspekcie rozwoju technologicznego.” Wydawnictwo Akademii Sztuki Wojennej, Warszawa (2017): pp. 25–26, 30–36.RedakcjaNaukowaBielawskiR.GrendB.“Bezpieczeństwo lotnicze w aspekcie rozwoju technologicznego.”Wydawnictwo Akademii Sztuki Wojennej, Warszawa (2017): pp. 25–26, 30–36.Search in Google Scholar
Coates J.F. “trends Shaping the Materials revolution.” Technological Forecasting and Social Change Vol. 41 (1992): pp. 189–193.CoatesJ.F.“trends Shaping the Materials revolution.”Technological Forecasting and Social ChangeVol. 41 (1992): pp.189–193.Search in Google Scholar
Bielawski R. “Wybrane Zagadnienia z Budowy Statków Powietrznych; Definicje, pojęcia i klasyfikacje.” Wydawnictwo Akademii Obrony Narodowej, Warszawa (2015): pp. 8–9, 38–42.BielawskiR.“Wybrane Zagadnienia z Budowy Statków Powietrznych; Definicje, pojęcia i klasyfikacje.”Wydawnictwo Akademii Obrony Narodowej, Warszawa (2015): pp. 8–9, 38–42.Search in Google Scholar
Boczkowska A., Kapuściński J., Puciłowski K. and Wojciechowski S. “Kompozyty.” Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa (2000).BoczkowskaA.KapuścińskiJ.PuciłowskiK.WojciechowskiS.“Kompozyty.”Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa (2000).Search in Google Scholar
What is a composite material? (A definitive guide). Available at: https://www.twi-global.com/technical-knowledge/faqs/what-is-a-composite-material (accessed on 7 December 2021).What is a composite material? (A definitive guide). Available at: https://www.twi-global.com/technical-knowledge/faqs/what-is-a-composite-material (accessed on 7 December 2021).Search in Google Scholar
Kaczorowski M. and Krzyńska A. “Konstrukcyjne materiały metalowe, ceramiczne i kompozytowe.” Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa (2008): pp. 268–271.KaczorowskiM.KrzyńskaA.“Konstrukcyjne materiały metalowe, ceramiczne i kompozytowe.”Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa (2008): pp. 268–271.Search in Google Scholar
rajak D.k., Pagar D.D., Kumar R. and Pruncu C.I. “recent Progress of reinforcement Materials: A Comprehensive Overview of Composite Materials”. Journal of Materials Research and Technology Vol. 8 No. 6 (Nov.–Dec. 2019): pp. 6354–6374.RajakD.K.PagarD.D.KumarR.PruncuC.I.“recent Progress of reinforcement Materials: A Comprehensive Overview of Composite Materials”. Journal of Materials Research and TechnologyVol. 8No. 6(Nov.–Dec.2019): pp. 6354–6374.Search in Google Scholar
Hsissou R., Seghiri R., Benzekri Z., Hilali M., Rafik M. and Elharfi A. “Polymer Composite Materials: A Comprehensive review.” Composite Structures Vol. 262 (15 April 2021): pp. 113640.HsissouR.SeghiriR.BenzekriZ.HilaliM.RafikM.ElharfiA.“Polymer Composite Materials: A Comprehensive review.”Composite StructuresVol. 262 (15April2021): pp. 113640.Search in Google Scholar
Woźniak D. and Kukiełka L. “kompozyty w technice w aspektach materiałów nowej generacji.” AUTOBUSY 6/2014.WoźniakD.KukiełkaL.“kompozyty w technice w aspektach materiałów nowej generacji.”AUTOBUSY6/2014.Search in Google Scholar
Królikowski W. “Polimerowe kompozyty konstrukcyjne.” Wydawnictwo Naukowe PWN SA, Warszawa (2012): pp. 16–18.KrólikowskiW.“Polimerowe kompozyty konstrukcyjne.”Wydawnictwo Naukowe PWN SA, Warszawa (2012): pp. 16–18.Search in Google Scholar
Mahesh V., Joladarashi S. and Kulkarni S.M. “A Comprehensive review on Material Selection for Polymer Matrix Composites Subjected to Impact Load.” Defence Technology Vol. 17 No. 1 (Feb. 2021): pp. 257–277.MaheshV.JoladarashiS.KulkarniS.M.“A Comprehensive review on Material Selection for Polymer Matrix Composites Subjected to Impact Load.”Defence TechnologyVol. 17No. 1(Feb.2021): pp. 257–277.Search in Google Scholar
Low I.M. and Dong Y. “Composite Materials: Manufacturing, Properties and Applications.” Elsevier; 1st edition (July 5, 2021).LowI.M.DongY.“Composite Materials: Manufacturing, Properties and Applications.”Elsevier; 1st edition(July5, 2021).Search in Google Scholar
Korzec I., Czarnigowski J., Łusiak T., Rękas D., Marciniak M. and Komajda K. “Modern Laminate Composite Designed for Aircraft Construction.” Journal of Technology and Exploitation in Mechanical Engineering Vol. 5 No. 1 (2019): pp. 1–8.KorzecI.CzarnigowskiJ.ŁusiakT.RękasD.MarciniakM.KomajdaK.“Modern Laminate Composite Designed for Aircraft Construction.”Journal of Technology and Exploitation in Mechanical EngineeringVol. 5No. 1 (2019): pp.1–8.Search in Google Scholar
Joseph P. Greene, ”Polymer Composites.” In: Automotive Plastics and Composites Materials and Processing (2021), pp. 191–222.JosephP. Greene, ”Polymer Composites.”In: Automotive Plastics and Composites Materials and Processing (2021), pp. 191–222.Search in Google Scholar
Das S. and Yokozeki T. “A Brief review of Modified Conductive Carbon/Glass Fibre reinforced Composites for Structural Applications: Lightning Strike Protection, electromagnetic Shielding, and Strain Sensing.” Composites Part C: Open Access Vol. 5 (July 2021): p. 100162.DasS.YokozekiT.“A Brief review of Modified Conductive Carbon/Glass Fibre reinforced Composites for Structural Applications: Lightning Strike Protection, electromagnetic Shielding, and Strain Sensing.”Composites Part C: Open AccessVol. 5 (July2021): p. 100162.Search in Google Scholar
Salahuddin B., Faisal S.N., Baigh T.A., Alghamdi M.N., Islam M.S., Song B., Zhang X., Gao S. and Aziz S. “Carbonaceous Materials Coated Carbon Fibre reinforced Polymer Matrix Composites.” Polymers Vol. 13 (2021): p. 2771.SalahuddinB.FaisalS.N.BaighT.A.AlghamdiM.N.IslamM.S.SongB.ZhangX.GaoS.AzizS.“Carbonaceous Materials Coated Carbon Fibre reinforced Polymer Matrix Composites.”PolymersVol. 13 (2021): p. 2771.Search in Google Scholar
Rajak D.K., Pagar D.D., Menezes P.L. and Linul E. “Fiber-reinforced Polymer Composites: Manufacturing, Properties, and Applications.” Polymers Vol. 11 (2019): p. 1667.RajakD.K.PagarD.D.MenezesP.L.LinulE.“Fiber-reinforced Polymer Composites: Manufacturing, Properties, and Applications.”PolymersVol. 11 (2019): p. 1667.Search in Google Scholar
The science and technology of composite materials. Available at: https://www.science.org.au/curious/technology-future/composite-materials (accessed on 7 December 2021).The science and technology of composite materials. Available at: https://www.science.org.au/curious/technology-future/composite-materials (accessed on 7 December 2021).Search in Google Scholar
Egbo M.K. “A Fundamental review on Composite Materials and Some of their Applications in Biomedical engineering.” Journal of King Saud University – Engineering Sciences Vol. 33 No. 8 (Dec. 2021): pp. 557–568.EgboM.K.“A Fundamental review on Composite Materials and Some of their Applications in Biomedical engineering.”Journal of King Saud University – Engineering SciencesVol. 33No. 8 (Dec.2021): pp. 557–568.Search in Google Scholar
Zavatta N., Rondina F., Falaschetti M.P. and Donati L. “effect of thermal Ageing on the Mechanical Strength of Carbon Fibre reinforced epoxy Composites.” Polymers Vol. 13 (2021): p. 2006.ZavattaN.RondinaF.FalaschettiM.P.DonatiL.“effect of thermal Ageing on the Mechanical Strength of Carbon Fibre reinforced epoxy Composites.”PolymersVol. 13 (2021): p. 2006.Search in Google Scholar
Saeedifar M. and Zarouchas D. “Damage Characterization of Laminated Composites using Acoustic emission.” Composites Part B: Engineering Vol. 195 (15 Aug. 2020): p. 108039.SaeedifarM.ZarouchasD.“Damage Characterization of Laminated Composites using Acoustic emission.”Composites Part B: EngineeringVol. 195 (15Aug.2020): p. 108039.Search in Google Scholar
Saeedifar M., Najafabadi M.A., Zarouchas D., Toudeshky H.H. and Jalalvand M. “Clustering of Interlaminar and Intralaminar Damages in Laminated Composites Under Indentation Loading Using Acoustic emission.” Composites Part B: Engineering Vol. 144 (1 July 2018): pp. 206–219.SaeedifarM.NajafabadiM.A.ZarouchasD.ToudeshkyH.H.JalalvandM.“Clustering of Interlaminar and Intralaminar Damages in Laminated Composites Under Indentation Loading Using Acoustic emission.”Composites Part B: EngineeringVol. 144 (1July2018): pp. 206–219.Search in Google Scholar
Towsyfyan H., Biguri A., Boardman R. and Blumensath T. “Successes and Challenges in Non-Destructive testing of Aircraft Composite Structures.” Chinese Journal of Aeronautics Vol. 33 No. 3 (March 2020): pp. 771–791.TowsyfyanH.BiguriA.BoardmanR.BlumensathT.“Successes and Challenges in Non-Destructive testing of Aircraft Composite Structures.”Chinese Journal of AeronauticsVol. 33No. 3(March2020): pp. 771–791.Search in Google Scholar
He Y., Tian G., Pan M. and Chen D. “Non-Destructive testing of Low-energy Impact in CFRP Laminates and Interior Defects in Honeycomb Sandwich using Scanningpulsed eddy Current.” Composites: Part B Vol. 59 (2014): pp. 196–203.HeY.TianG.PanM.ChenD.“Non-Destructive testing of Low-energy Impact in CFRP Laminates and Interior Defects in Honeycomb Sandwich using Scanningpulsed eddy Current.”Composites: Part BVol. 59 (2014): pp.196–203.Search in Google Scholar
Sujon M.A.S., Islam A. and Nadimpalli V.k. “Damping and Sound Absorption Properties of Polymer Matrix Composites.” Polymer Testing Vol. 104 (December 2021): p. 107388.SujonM.A.S.IslamA.NadimpalliV.K.“Damping and Sound Absorption Properties of Polymer Matrix Composites.”Polymer TestingVol. 104 (December2021): p. 107388.Search in Google Scholar
Komorek A. and Przybyłek P. “Naprawa uszkodzeń kompozytowych elementów lotniczych wywołanych niskoenergetycznym obciążeniem udarowym.” Technologia i Automatyzacja Montażu nr 4/2011.KomorekA.PrzybyłekP.“Naprawa uszkodzeń kompozytowych elementów lotniczych wywołanych niskoenergetycznym obciążeniem udarowym.”Technologia i Automatyzacja Montażunr 4/2011.Search in Google Scholar
Huang S., Fu Q., Yan L. and Kasal B. “Characterization of Interfacial Properties between Fibre and Polymer Matrix in Composite Materials.” Journal of Materials Research and Technology Vol. 13 (July–Aug. 2021): pp. 1441–1484.HuangS.FuQ.YanL.KasalB.“Characterization of Interfacial Properties between Fibre and Polymer Matrix in Composite Materials.”Journal of Materials Research and TechnologyVol. 13 (July–Aug.2021): pp. 1441–1484.Search in Google Scholar
May D., Goergen C. and Friedrich K. “Multifunctionality of Polymer Composites Based on recycled Carbon Fibers.” Advanced Industrial and Engineering Polymer Research Vol. 4 (2021): pp. 70–81.MayD.GoergenC.FriedrichK.“Multifunctionality of Polymer Composites Based on recycled Carbon Fibers.”Advanced Industrial and Engineering Polymer ResearchVol. 4 (2021): pp.70–81.Search in Google Scholar
Łusiak T., Novák A., Janovec M. and Bugaj M., “Measuring and testing Composite Materials Used in Aircraft Construction.” Key Engineering Materials Vol. 904 (2021): pp. 161-166.ŁusiakT.NovákA.JanovecM.BugajM.“Measuring and testing Composite Materials Used in Aircraft Construction.”Key Engineering MaterialsVol. 904 (2021): pp.161-166.Search in Google Scholar
Lefeuvre A., Garnier S., Jacquemin L., Pillain B. and Sonnemann G. “Anticipating in-use Stocks of Carbon Fiber reinforced Polymers and related Waste Flows Generated by the Commercial Aeronautical Sector Until 2050.” Resources, Conservation and Recycling Vol. 125 (October 2017): pp. 264–272.LefeuvreA.GarnierS.JacqueminL.PillainB.SonnemannG.“Anticipating in-use Stocks of Carbon Fiber reinforced Polymers and related Waste Flows Generated by the Commercial Aeronautical Sector Until 2050.”Resources, Conservation and RecyclingVol. 125 (October2017): pp. 264–272.Search in Google Scholar
Bielawski R., Rządkowski W., Augustyn S. and Pyrzanowski P. “Nowoczesne materiały stosowane w konstrukcjach lotniczych – wybrane problemy oraz kierunki rozwoju.” Zeszyty Naukowe Politechniki Rzeszowskiej 291, Mechanika 87 rUtMech, T. XXXII z. 87 (3/15), (lipiec-wrzesień 2015): pp. 203–216.BielawskiR.RządkowskiW.AugustynS.PyrzanowskiP.“Nowoczesne materiały stosowane w konstrukcjach lotniczych – wybrane problemy oraz kierunki rozwoju.”Zeszyty Naukowe Politechniki Rzeszowskiej 291, Mechanika 87 rUtMech, T. XXXII z. 87 (3/15), (lipiec-wrzesień2015): pp. 203–216.Search in Google Scholar
Galos J. “thin-Ply Composite Laminates.” Composite Structures Vol. 236 (15 March 2020): p. 111920.GalosJ.“thin-Ply Composite Laminates.”Composite StructuresVol. 236 (15March2020): p. 111920.Search in Google Scholar
Nsengiyumva W., Zhong S., Lin J., Zhang Q., Zhong J. and Huang Y. “Advances, limitations and Prospects of Nondestructive testing and evaluation of thick Composites and Sandwich Structures.” Composite Structures Vol. 236 (15 Jan. 2021): p. 112951.NsengiyumvaW.ZhongS.LinJ.ZhangQ.ZhongJ.HuangY.“Advances, limitations and Prospects of Nondestructive testing and evaluation of thick Composites and Sandwich Structures.”Composite StructuresVol. 236 (15Jan.2021): p. 112951.Search in Google Scholar
Królicka A. and Trębacki K. “Próby Wytrzymałościowe kompozytów Polimerowych, Autobusy: technika, eksploatacja.” Systemy transportowe 9/2017KrólickaA.TrębackiK.“Próby Wytrzymałościowe kompozytów Polimerowych, Autobusy: technika, eksploatacja.”Systemy transportowe9/2017Search in Google Scholar
Pecho P., Hrúz M., Novák A. and trško L. (2021). “Internal Damage Detection of Composite Structures using Passive rFID tag Antenna Deformation Method: Basic research.” Sensors Vol. 21 No. 24 (2021): p. 8236. DOI. 10.3390/s21248236.PechoP.HrúzM.NovákA.TrškoL. (2021). “Internal Damage Detection of Composite Structures using Passive rFID tag Antenna Deformation Method: Basic research.”SensorsVol. 21No. 24 (2021): p. 8236. DOI. 10.3390/s21248236.Open DOISearch in Google Scholar
Tensile Testing: An Introduction. Available at: https://www.instron.us/en-us/our-company/library/test-types/tensile-test (accessed on 7 December 2021).Tensile Testing: An Introduction. Available at: https://www.instron.us/en-us/our-company/library/test-types/tensile-test (accessed on 7 December 2021).Search in Google Scholar
Kumar R., Mikkelsen L.P., Lilholt H. and Madsen B. “experimental Method for tensile testing of Unidirectional Carbon Fibre Composites Using Improved Specimen type and Data Analysis.” Materials Vol. 14 (2021): p. 3939.KumarR.MikkelsenL.P.LilholtH.MadsenB.“experimental Method for tensile testing of Unidirectional Carbon Fibre Composites Using Improved Specimen type and Data Analysis.”MaterialsVol. 14 (2021): p. 3939.Search in Google Scholar
Hassan A.F. and Abdullah O.A. “New Methodology for Prestressing Fiber Composites.” Universal Journal of Mechanical Engineering Vol. 3 No. 6 (2015): pp. 252–261.HassanA.F.AbdullahO.A.“New Methodology for Prestressing Fiber Composites.”Universal Journal of Mechanical EngineeringVol. 3No. 6 (2015): pp.252–261.Search in Google Scholar
Kosicka E., Borowiec M., Kowalczuk M., Krzyzak A. and Szczepaniak R. “Influence of the Selected Physical Modifier on the Dynamical Behavior of the Polymer Composites used in the Aviation Industry.” Materials Vol. 13 (2020): p. 5479.KosickaE.BorowiecM.KowalczukM.KrzyzakA.SzczepaniakR.“Influence of the Selected Physical Modifier on the Dynamical Behavior of the Polymer Composites used in the Aviation Industry.”MaterialsVol. 13 (2020): p. 5479.Search in Google Scholar
Zwick/Roell Z100 testing machine for tests at elevated temperature up to 1200°C. Available at: https://www.imz.pl/en/news/research_Group__Investigations_of_Properties_and/Zwick_roell_Z100_testing_machine_for_tests_at/[30,232,,,,] (accessed on 7 December 2021).Zwick/Roell Z100 testing machine for tests at elevated temperature up to 1200°C. Available at: https://www.imz.pl/en/news/research_Group__Investigations_of_Properties_and/Zwick_roell_Z100_testing_machine_for_tests_at/[30,232,,,,] (accessed on 7 December 2021).Search in Google Scholar