OPTIMIZATION OF THE OPERATIONAL CHARACTERISTICS OF STRUCTURAL ELEMENTS OF AIRCRAFT MADE OF BASALT PLASTIC

Philip Irving Polymer Composites in the Aerospace Industry Woodhead Publishing Series in Composites Science and Engineering Polymer Composites in the Aerospace Industry 2020 .pp.14-16. ISBN: 978-0-08-102679-3

Park, S.J.; Seo, M.K. Composite Characterization. Interface Sci. Technol. 2011, 18, 631–738. [Google Scholar]

Vallittu, P.K. Fibre-Reinforced Composites for Dental Applications. In Dental Biomaterials; Curtis, V., Watson, T.F., Eds.; Woodhead Publishing: Southen, UK, 2008; pp. 239–260. [Google Scholar]

Deb, A. Crashworthiness Design Issues for Lightweight Vehicles. In Materials, Design and Manufacturing for Lightweight Vehicles; Mallick, P.K., Ed.; Woodhead Publishing: Cambridge, UK, 2021; pp. 433–470. [Google Scholar]

Randbaran, E.; Dayang, L.; Zahari, R.; Sultan, M.T.H.; Mazlan, N. Advantages and Disadvantages of Using Composite Laminates in the Industries. Mod. Approaches Mater. Sci. 2020, 32, 349–352. [Google Scholar]

Monaldo, E.; Nerilli, F.; Vairo, G. Basalt-based fiber-reinforced materials and structural applications in civil engineering. Compos. Structrs. 2019, 214, 246–263. [CrossRef]

Dhand, V.; Mittal, G.; Rhee, K.Y.; Park, S.J.; Hui, D. A short review on basalt fiber reinforced polymer composites. Compos. Part B 2015, 73, 166–180. [CrossRef]

Fiore, V.; Scalici, T.; Bella, G.D.; Valenza, A. A review on basalt fibre and its composites. Compos. Part B 2015, 74, 74–94. [CrossRef]

Greco, A.; Maffezzoli, A.; Casciaro, G.; Caretto, F. Mechanical properties of basalt fibres and their adhesion to polypropylene matrices. Compos. Part B Eng. 2014, 67, 233–238. [CrossRef]

Deák, T.; Czigány, T. Chemical composition and mechanical properties of basalt and glass fibres: A comparison. Text. Res. J. 2009, 79, 645–651. [CrossRef]

Gutnikov, S.I.; Malakho, A.P.; Lazoryak, B.I.; Loginov, V.S. Influence of alumina on the properties of continuous basalt fibres. Russ. J. Inorg. Chem. 2009, 54, 191–196. [CrossRef]

Ramakrishnan, N.S.; Tolmare, V.; Brik, V.B. Performance Evaluation of 3-D Basalt Fibre Reinforced Concrete and Basalt Rod Reinforced Concrete. In NCHRP-IDEA Program Project Final Report; Transportation Research Board: Washington, DC, USA, 1998.

Colombo,C.; Vergani, L.; Burman, M. Static and fatigue characterization of new basalt fibre reinforced composites. Compos. Struct. 2012, 94, 1165–1174. [CrossRef]

Liu, H.; Yu, Y.; Liu, Y.; Zhang, M.; Li, L.; Ma, L.; Sun, Y.; Wang, W. A review on basalt fiber composites and their applications in clean energy sector and power grids. Polymers 2022, 14, 2376. [CrossRef]

Brik, B. Basalt Fibre Composite Reinforcement for Concrete. In NCHR-IDEA Program Project Final Report; Transportation Research Board: Washington, DC, USA, 1997.

Loos, M. Composites in Carbon Nanotube Reinforced Composites. In CNR Polymer Science and Technology; Willian Andrew Applied Science Publishers: New York, NY, USA, 2015; pp. 37–72.

Mahltig, B.; Kyosev, Y. Basalt Fibres. In Inorganic and Composite Fibres; Production, Properties and Applications; Woodhead Publishing: Cambridge, UK, 2018; pp. 195–217.

Martynova, E.; Cebulla, H. Glass Fibres. In Inorganic and Composite Fibres; Production, Properties and Applications; Woodhead Publishing: Cambridge, UK, 2018; pp. 131–163.

Tempelman, E.; Shercliff, H.; van Eyben, B.N. Resin Transfer Moulding. In Manufacturing and Design: Understanding the Principles of How Things Are Made; Elsevier Ltd.: Amsterdam, The Netherlands, 2014; pp. 171–186.

Wypych,G.Fillers—Origin, Chemical Composition, Properties, and Morphology in Handbook of Fillers; Chem Tec Publishing: Scarbor ough, ON, Canada, 2016; pp. 14–266.

Jamshaid, H.; Mishra, R. A green material from rock: Basalt fibre—A review. J. Text I 2016, 107, 923–937. [CrossRef]

Summerscales, J.; Searle, T.J. Low-pressure (vacuum infusion) techniques for moulding large composite structures. Proc. Inst. Mech. Eng. Part L J. Mater. Des. Appl. 2005, 219, 45–58.

Krishan Pareek, Purna Saha Basalt fiber and its composites: an overview.Proceedings of National Conference on Advances in Structural Technologies (CoAST-2019), Department of Civil Engineering National Institute of Technology Silchar (2019).PP.53.

T. Xiong, N. Wang, J. Liao, Y. ZhangModified boron nitride-basalt fiber/epoxy resin composite laminates and their enhanced mechanical properties Polym. Adv. Technol., 32 (9) (2021), pp. 3621-3632, 10.1002/pat.5370

Emine Feyza Sukur, Gurol OnalGraphene nanoplatelet modified basalt/epoxy multi-scale composites with improved tribological performance, Wear.Volumes 460–461 ISSN 0043-1648 https://doi.org/10.1016/j.wear.2020.203481 (2020)

N. Jamali, H. Khosravi, A. Rezvani, et al. Mechanical properties of multiscale graphene oxide/basalt fiber/epoxy composites Fibers Polym., 20 (2019), pp. 138-146, 10.1007/s12221-019-8794-2

M.A. Azghan, F. Bahari-Sambran, R. Eslami-Farsani.Modeling and experimental study on the mechanical behavior of glass/basalt fiber metal laminates after thermal cycling Int. J. Damage Mech., 30 (8) (2021), pp. 1192-1212.

M.Sakthivel1, S.RAMESH, (2013),Mechanical Properties Of Natural Fibre (Banana, Coir, Sisal) Polymer CompositessciencePARK,

Alexander.J, Dr.BSM.Augustine (2016), “influence of microwave post curing on the mechanical and thermal properties of basalt / epoxy composites for aerospace applications” ,Journal of the Balkan Tribological Association, Vol. 22(1), pp.220–234.

Alexander.J, Dr.BSM.Augustine (2015), “Inter ply stress analysis of basalt fibre reinforced plastic laminated composites” International Journal of Applied Engineering Research, Vol. 10(11), pp.10448-10450.

Kuruvilla Joseph, Romildo Dias TolêdoFilho, Beena James, Sabu Thomas & Laura Hecker De Carvalho,(1999),A Review On Sisal Fiber Reinforced Polymer,Composites,RevistaBrasileira De EngenhariaAgrícola E Ambiental, V.3, N.3, P.367-379.

Ahmad Hosseini , Asokan Raji Improved double impact and flexural performance of hybridized glass basalt fiber reinforced composite with graphene nanofiller for lighter aerostructures . Polymer Testing,Volume 125, August 2023, 108PP.107

Basalt Fiber & Composite Materials Technology Development. Scope of Application of Basalt Fibre Materials. 2014. Available online: http://basaltm.com/en/bnv/scope-of-application-of-basalt-fiber-materials.html (accessed on 10 November 2022)

E. D. Moskvicheva & V. I. Reznichenko The Use of Basalt Plastic for the Manufacture of Sound Insulation Panels of an Aircraft Engine Conference paper First Online: 02 June 2021. pp 101–113.

Autar K. Kaw Mechanics of composite materials second edition. Published in 2006 by CRC Press Taylor & Francis Group.ISBN 13: 978-0-8493-1343-1 .pp.16-18.

Vidya Viswanath, Somsubhra Maity, Jason R. Bochinski, Laura I. Clarke, and Russell E. GorgaThermal Annealing of Polymer Nanocomposites via Photothermal Heating: Effects on Crystallinity and Spherulite Morphology dx.doi.org/10.1021/ma401855v | Macromolecules 2013, vol.46,pp. 8596−8607.

Cecep Ruskandi, Darma Firmansyah Undayat, Gita Novian Hermana, Muhammad Rizki Gorbyandi Nadi, and Wiwik Purwadi Study on Thermal Behaviour of Tungsten Cemented Carbide Tip Scraps. T. P. Syawitri et al. (Eds.): MEST 2022, AER 222, pp. 107–113, 2023. https://doi.org/10.2991/978-94-6463-134-0_11.

M. A. Sachini N. Weerasinghe a, Obed J. Dodo a, Chamoni W. H. Rajawasam a, Ibrahim O. Raji a, Shiwanka V. Wanasinghe , Dominik Konkolewicz , and Nethmi De Alwis Watuthanthrige . Educational series: turning monomers into crosslinked polymer networks DOI: 10.1039/D3PY00912B (Tutorial Review) Polym. Chem., 2023, 14, pp.4503-4514.

Yuliya Goncharova Evaluation of Filler Distribution in Particulate Reinforced Composites. July 2015 Journal of Materials Science and Chemical Engineering 3(7):pp.108-112. DOI:10.4236/msce.2015.37014.