In this article the results of theoretical investigation of fibers impregnation in manufacturing high filled composite by pultrusion are represented. A criterion is maximum intention of technological process. An analytical investigation of intention depending on main physical factors is proposed.
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References
1.
KrasnovskiiA.N., KazakovI.A., KvachevK.V., Science foundation of continuous shaping manufactures from polymer composite materials. MSTU Stankin.2012. – 65 p.
2.
GrigorievS.N., KrasnovskiiA. N., KazakovI.A., KvachevK.V.An analytic definition of the border polymerization line for axisymmetric composite rods. Applied Composite Materials. DOI:10.1007/s10443-013-9317-8.
3.
GrigorievS.N., KrasnovskiiA.N., A study of the process of continuous forming of nanocrystalline composite powders. Metal Science and Heat Treatment.2012, 54 (1-2). 13–16.
4.
GrigorievS.N., KrasnovskiiA.N., Distribution of the density of material in the pressing channel in continuous forming of nanocrystalline composite powders. Metal Science and Heat Treatment.2012, 54 (3-4). 135–138.
5.
GrigorievS.N., KrasnovskiiA.N., Study of the Triboengineering Characteristics of Ultradispersed Composite Powder Materials. Journal of Friction and Wear, 2011, 32 (3). 164–166.
6.
KrasnovskiiA.N., Study of Circular Slip of Superdispersed Powder Materials in Continuous Formation Processes. Journal of Friction and Wear, 2013, 34 (3). 221–224.
7.
KrasnovskiiA.N., KvachevK.V.Mathematical modeling of pultrusion mechanical process in manufactures from polymer composite materials. Design. Materials. Technology.5 (25), 2012. 78–81.
8.
KrasnovskiiA.N., KazakovI.A., Optimization of die construction parameters to produce composite rods in pultrusion way. Constructions from composite materials., 4, 2012. 16–23.
9.
KrasnovskiiA.N., KazakovI.A.Investigation of material deflected mode in pultrusion. Plastic masses.2012, 1022–26.
10.
HozinV.G., KarimovA.A., CherevatskiiA.M., PolanskiiA.A., MurafaA.V., MurashovB.A., PimenovN.V., Modification of epoxy composition by ultrasonic //Mechanics of composite materials.4, 1984. 702–706.
11.
ProhorenkoP.P., DezkunovN.V., KonovalovG.E., Ultrasonic capillary effect.Minsk, Nayka i tehnica, 1981. 135 p.
12.
Materials of conference “Impregnation of capillary-porous bodies”. 26–28 October, 2005. Dnepropetrovsk, 65 p.
13.
BroninF.A., Investigation of cavitation destruction and dispersion of solid bodies in ultrasonic field high intension. Dissertation of the candidate of technical sciences. 1966.
