The structure, composition and set of properties of specimens and components, and some parameters of the process of production of a promising FML class of metallic polymers based on sheets of high-modulus (E ~ 79 GPa) alloy 1441 with reduced density (d ~2.6 g/cm3) and an optimized glued prepreg reinforced with fibers of high-strength high-modulus VMPglass are described. Results of fire and fatigue tests of a promising 1441-SIAL structural laminate are presented.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
I. N. Fridlyander, O. G. Senatorova, L. I. Anikhovskaya, et al., “Laminate metal-polymer composites,” in: E. N. Kablov and I. N. Fridlyander (eds.), Nonferrous Metals and Alloys Composite Metallic Materials. An Encyclopedia [in Russian], Mashinostroenie, Moscow (2001), pp. 185–195.
I. N. Fridlyander, O. G. Senatorova, N. F. Lukina, and V. V. Antipov, “SIAL laminated aluminum-polymer materials” in: E. N. Kablov (ed.), Anniversary Sci.-Eng. Digest, “75 Years of VIAM. Aircraft Materials” [in Russian], VIAM, Moscow (2007), pp. 188–192.
E. N. Kablov, V. V Antipov, O. G. Senatorova, and N. F. Lukina, “A new class of laminated aluminum-glass-fiber materials based on aluminum-lithium alloy 1441 with reduced density,” Vestn. MGTU Im. Baumana, Ser. Mashinostroenie, Special Issue, 174–183 (2011).
V. V. Antipov, O. G. Senatorova, V. V. Sidel’nikov, and V. V. Shestov, “SIAL structural laminated materials,” Klei, Germetiki, Tekhnol., No. 6, 13–17 (2012).
V. V. Antipov, O. G. Senatorova, N. F. Lukina, et al., “Laminated metal-polymer composite materials,” in: E. N. Kablov (ed.), Anniversary Sci.-Eng. Digest, Supplement to the Journal “Aviats. Mater. Tekhnol.” [in Russian], VIAM, Moscow (2012), pp. 226–230 (2012).
V. V. Antipov, N. A. Lavro, V. V. Sukhonenko, and O. G. Senatorov, “Experience of seaplane application of Al – Li alloy 1441 in a laminated material based on it,” Tsvetn. Met., No. 8 (2013).
V. V. Antipov, “Manufacture-adaptable aluminum-lithium alloy 1441 and laminated hybrid composites based on it,” Metallurg, No. 5, 36–39 (2012).
Ad. Vlot and Jan W. Gunnik (eds.), Fiber Metal Laminates, Kluwer Academic Publishers (2001), 527 p.
V. V. Antipov, O. G Senatorova, T. Beumler, and M. Iipma, “Investigation of a new fibre metal laminate (FML) family on the base of Al – Li alloy with lower density,” Mater. Sci. Eng. Technol., No. 4, 350–355 (2012).
V. V. Antipov, O. G. Senatorova, and V. V. Sidel’nikov, “A study of the fire safety of laminated hybrid aluminum-glass-fiber materials of the SIAL class,” Sci. Eng. Digest “Aviats. Mater. Tekhnol.,” No. 3, 36–41 (2011).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 9, pp. 28 – 31, September, 2013.
Rights and permissions
About this article
Cite this article
Shestov, V.V., Antipov, V.V., Senatorova, O.G. et al. Structural Laminate Aluminum-Glass-Fiber Materials 1441-Sial. Met Sci Heat Treat 55, 483–485 (2014). https://doi.org/10.1007/s11041-014-9658-4
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11041-014-9658-4