Methods for forming semi-finished products for the production of continuous fiber reinforced metal matrix composites (review)
The implementation of new projects in various industries requires the solution of new tasks, one of which is the creation of new materials with higher performance. To one of such materials belong fiber reinforced metal matrix composite materials. An integral step in the creation of which is the development of technologies for their production. The technological scheme of producing fiber reinforced metal matrix composites influences the formation of their structure and properties. Therefore, it is necessary to choose the method of forming semi-finished products for their manufacture, which ensures the insulation of the fibers between each other by a layer of matrix material, the absence of their mechanical damage and chemical interaction with the matrix material, and also promotes uniform distribution of fibers in the material. The article presents an overview of methods for forming semi-finished products for the producing fiber metal matrix composite materials. It is shown that the mo
- Kablov E.N. Materialy i himicheskie tehnologii dlya aviacionnoj tehniki [Materials and chemical technologies for aviation engineering] // Vestnik Rossijskoj akademii nauk. 2012. T. 82. №6. S. 520–530.
- Kablov E.N. Sovremennye materialy – osnova innovacionnoj modernizacii Rossii [Modern materials are the base of innovative modernization of Russia] // Metally Evrazii. 2012. №3. S. 10–15.
- Kablov E.N. Strategicheskie napravleniya razvitiya materialov i tehnologij ih pererabotki na period do 2030 goda [The strategic directions of development of materials and technologies of their processing for the period to 2030] // Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
- Grishina O.I., Shavnev A.A., Serpova V.M. Osobennosti vliyaniya strukturnyh parametrov na mehanicheskie harakteristiki metallicheskogo kompozicionnogo materiala na osnove alyuminievyh splavov, uprochnennyh chasticami karbida kremniya (obzor) [Features of influence of structural parameters on mechanical properties of metallic composite material based on particle-reinforced aluminum alloys by silicon carbide] // Aviacionnye materialy i tehnologii. 2014. №S6. S. 24–27. DOI: 10.18577/2071-9140-2014-0-s6-24-27.
- Kablov E.N., Shchetanov B.V., Grashhenkov D.V., Shavnev A.A., Nyafkin A.N. Metallomatrichnye kompozicionnye materialy na osnove Al–SiC [Metalmatrix composite materials on the basis of Al–SiC] // Aviacionnye materialy i tehnologii. 2012. №S. S. 373–380.
- Chawla N., Chawla K.K. Metal Matrix Composites. New York: Springer Sience+Business Media Inc., 2006. P. 2–107.
- Portnoj K.I., Salibekov S.E., Svetlov I.L., Chubarov V.M. Struktura i svojstva kompozicionnyh materialov [Structure and properties of composite materials]. M.: Mashinostroenie, 1979. 255 c.
- Shorohov M.H., Kolpashnikov A.I., Kostikov V.I. i dr. Voloknistye kompozicionnye materialy s metallicheskoj matricej [Fibrous composite materials with metal matrix]. M.: Mashinostroenie, 1981. 272 s.
- Valente T., Bartuli C. A plasma spray process for the manufacture of long-fiber reinforced Ti–6Al–4V composite monotapes // Journal of Thermal Spray Technology. 1994. Vol. 3 (1). P. 63–68.
- Beddoes J., Koul A.K., Saxena P. Processing & properties of continuous fiber reinforced titanium matrix axi-symmetric composites // ICCM-12. 1999. P. 284.
- Method to manufacture reinforced axi-symmetric metal matrix composite shapes: pat. 5897922 US. No. 08/826672; filed 07.04.97; publ. 27.24.99.
- Procédé d’enduction métallique de fibres par voie liquid: pat. 0931846 EP. No. 99400129.5; filed 21.01.99; publ. 28.07.99.
- Procédé d’enduction métallique de fibres par voie liquid: pat. 0931846 EP. No. 99400129.5; filed 21.01.99; publ. 28.07.99.
- Sposob i ustrojstvo zhidkostnogo naneseniya metallicheskogo pokrytiya volokna: pat. 2469123 Ros. Federaciya [Way and device of liquid drawing metallic coating of fiber: pat. 2469123 Rus. Federation]; zayavl. 21.05.2008; opubl. 10.12.2012, Byul. №34. 13 c.
- Sposob naneseniya metallicheskogo pokrytiya na volokna zhidkim metodom: pat. 2422554 Ros. Federaciya [Way of drawing metallic coating on fibers liquid method: pat. 2422554 Rus. Federation]; zayavl. 04.10.2006, opubl. 27.06.2011 Byul. №18. 11 s.
- Wood M., Ward-Close M. Fiber-reinforced intermetallic compounds by physical vapor deposition // Materials Science and Engineering. 1995. Vol. A192/193. P. 590–596.
- Matrix-coated reinforcement for production of metal matrix composites: pat. 2268192 GB. No. 9315647.9; filed 10.02.92; publ. 05.01.94.
- Serpova V.M., Shavnev A.A., Grishina O.I. i dr. Smachivaemost i mezhfaznoe vzaimodejstvie v metallicheskom kompozicionnom materiale na alyuminievoj matrice, armirovannoj oksidom alyuminiya [Wettability and interphase interaction in metal composite material on the aluminum matrix reinforced by aluminum oxide] // Materialovedenie. 2014. №12. S. 29–35.
- Kuzmichev A.I. Magnetronnye raspylitelnye sistemy [Magnetronnye spraying systems]. Kiev: Avers, 2008. Kn. 1: Vvedenie v fiziku i tehniku magnetronnogo raspyleniya. 244 s.
- Danilin B.S., Syrchin V.K. Magnetronnye raspylitelnye sistemy [Magnetron spraying systems]. M.: Radio i svyaz, 1982. 72 s.
- Upadhyaya D., Wood M. et al. Coating and Fiber Effects on SiC-Reinforced Titanium // TMC. 1994. November. P. 62–67.
- Semifinished product made of a composite material and method for producing a semifinished product from a composite material: pat. WO 2005/066382; filed 22.12.04; publ. 21.07.05.
