Учебники 80365
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№ 4 (19), 2018 |
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№ 03.G25.31.026ζ |
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, 1989. 16ζ . |
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. 1982. №1. ζ2 . |
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№ 3 201η. |
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678.6. |
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91
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№ 4 (19), 2018 |
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» №6 |
2017.
REFERENCES
1.Composite materials based on basalt fibers: Collection of research papers. Kiev: IPM, 1989. 164 p.
2.Basalt fiber materials. Collection of articles / V.I. Kostikov, L.N. Smirnov (Eds.) M.: Informconversiya, 2001. 307 p.
3.Smirnov L.N., Koshelev V.Yu. Mechanics of forming basalt continuous
fibers under spun-bonded mode of their production // Basalt fiber materials: Collection of ОбОМЮЭШЫЬ’ КЫЭТМХОЬ ЮЧНОЫ ЭСО «Integrated program for the application of new basalt fiber materials and products in the municipal economy of Moscow, in 1998-2000 and until 2005». M.: Informconversiya, 2001. P. 5-34.
4.Industrial polymer composite materials. Transl. from English / P.G. Babaevsky, Ed. M.: Chemistry, 1980. 472 p.
5.Guryev V.V., Neproshin E.I. Features of production technology of heat-
insulating products from basalt fibers and their physico-mechanical properties // Basalt fТЛОЫ ЦКЭОЫТКХЬ: CШХХОМЭТШЧ ШП ОбОМЮЭШЫЬ’ КЫЭТМХОЬ ЮЧНОЫ ЭСО «Integrated program for the application of new basalt fiber materials and products in the municipal economy of Moscow, in 1998-2000 and until 2005». M.: Informconversiya, 2001. P. 129-156.
6. Gromkov B.K., Smirnov L.N., Trofimov A.N. Rocks for the basalt fibers production // BКЬКХЭ ПТЛОЫ ЦКЭОЫТКХЬ: CШХХОМЭТШЧ ШП ОбОМЮЭШЫЬ’ КЫЭТМХОЬ ЮЧНОЫ ЭСО «Integrated program for the application of new basalt fiber materials and products in the municipal economy of Moscow, in 1998-2000 and until 2005». M.: Informconversiya, 2001. P. 54-64.
7.Tutakov O.V., Bozhko V.I. Temperature-resistant fabrics from basalt fi-
ЛОЫЬ // TОбЭТХО ТЧНЮЬЭЫв. 1982. №1. P. ζ2.
8.Basalt plastics for operations at elevated temperatures. I.F. Davydova,
92
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№ 4 (19), 2018 |
N.S. Kavun, E.P. Shvetsov. VIAM/2012-205979.
9. Moisture transfer in basalt plastics based on epoxy-anhydride binder modified with silicate nanoparticles. D.E. Zimin, N.N. Khodakova, T.K. Uglova, V.V. Samoilenko, A.σ. BХКгЧШЯ. PШХгЮЧШЯЬФвVОЬЭЧТФ № 3 201η. UDC 678.6.
10. Polymer composite materials based on basalt. I.G. Matveev, M.P. Lebedev. V.P. Larionov Institute of physical and technical problems of the North. SBRAS, Yakutsk. «Chemicaltechnology» Journal №6 2017.
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93
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№ 4 (19), 2018 |
624.074.42 (53, 54)
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, E-mail: maksim.orlov@emtc.ru |
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94
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№ 4 (19), 2018 |
IMPROVED STRENGTH PROPERTIES OF COMPOSITE PRODUCTS BY APPLICATION OF THREE DIMENSIONAL REINFORSEMENT OF DRY PREFORMS: A STUDY OF TRENDS
M.A. Orlov1*, A.N. Kalinnikov1, V.A .Seleznev1, R.L. Shatalov2, F.N. Ulitkin1, I.A. Polikarpova1, V.V. Bogachev1, I.D. Zolotarenko1, V.A. Eremenko1
1«Composites of Russia» Technological Center, Bauman Moscow State Technical University, Russian Federation, 105005, Moscow, 2-nd Baumaskaya st., 5
2Moscow Polytechnic University, Russian Federation, 107023, Moscow, B. Semenovskaya str., 38
*Corresponding author: Maksim A. Orlov, E-mail: maksim.orlov@emtc.ru
This article presents a practical study of options to improve performance characteristics and strength properties of composite products of complex geometric shapes intended for gas turbine aircraft engines by methods of three-dimensional preform reinforcement. In the course of the work, various layouts for prototype reinforcement were studied with subsequent tests for resistance against yield mechanical loads; a significant (up to 40 %) dependence of the prototype strength characteristics on the applied reinforcement layout was detected; the advantages of 3D reinforcement presented by various transverse stitching layouts were clearly demonstrated.
Keywords: basalt fibers, composite materials, enhanced performance characteristics, shear strength, three-dimensional reinforcement of performs
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