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The Influence of Pyrolitic Degradation on Mechanical Properties of Carbon Fibres within Recycling Composite Materials

, 2009, 342 s. Betonové stavitelství. ISBN 978-80-87093-75-7. [5] VALEŠ M., Štekner B. Experimentální systém pro teplotní rozklad vláknových termosetických kompozitních materiálů . Zpráva VZLÚ, a.s. č. R-3960, VZLÚ,a.s., 2006. [6] MSV studénka, s.r.o.: Rozvíjíme se [online]. Bílovec: MSV studénka, 2012 [cit. 2017-09-07]. [7] KWAN-Woo K., LEE H. M., AN J. H., CHUNG D. CH., AN K.H., KIM B. J. Recycling and characterization of carbon fibers from carbon fiber reinforced epoxy matrix composites by a novel super-heated-steam method, In Journal of

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The effect of thermal treatments on the mechanical and electrical properties of nickel-coated carbon fibre composites

fiber-reinforced ABS composites. Mater. Sci. Eng. A 302(2), 258-267. DOI: 10.1016/ S0921-5093(00)01824-4. Chung, D. D. L. (2001). Electromagnetic interference shielding effectiveness of carbon materials. Carbon 39(2), 279-285. DOI: 10.1016/S0008-6223(00)00184-6. Fu, S. Y., Lauke, B., Mader, E., Yue, C. Y. & Hu, X. (2000). Tensile properties of short-glass-fiber- and short-carbon-fiber-reinforced polypropylene composites. Composites: Part A 31(10), 1117-1125. DOI: 10.1016/S1359-835X(00

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Reinforcement of timber beams with carbon fibers reinforced plastics

- ISBN 80-227-2359-2. S. 25-26. Gugutsidze George: Selection of best cross-section for timber composite beams reinforced with carbon fiber reinforced plastics. In: Wood. Raw material of 21-th century in Architecture and Civil Engineering. Year-book from 6th conference with foreign participation, SR, Smolenitse 6.-7.9.2007. Bratislava ADAPT, 2007. ISBN 978-80-89145-04-1. S. 27-30 Reddy J. N.: Finite Element Method. 2005 Fiorelli J., Alves Dias A.: Theoretical model and experimental analysis of

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Electrooxidation of phenol on carbon fibre-based anodes through continuous electrolysis of synthetic wastewater

92, 20–30. DOI: 10.1016/j.electacta.2013.01.020. 17. Jin, P., Chang, R., Liu, D., Zhao, K., Zhang, L. & Ouyang, Y. (2014). Phenol degradation in an electrochemical system with TiO 2 /activated carbon fiber as electrode. J. Environ. Chem. Eng . 2, 1040–1047. DOI: 10.1016/j.jece.2014.03.023. 18. Duan, F., Li, Y., Cao H., Wang, Y., Crittenden, J.C. & Zhang, Y. (2015). Activated carbon electrodes: Electrochemical oxidation coupled with desalination for wastewater treatment. Chemosphere 125, 205–211. DOI: 10.1016/j.chemosphere.2014.12.065. 19

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Removal of Malachite Green and Congo Red Dyes from Water by Polyacrylonitrile Carbon Fibre Sorbents

.2015.16.4.275. Ma, X., Yang, H., Yu, L., Chen, Y., Li, Y., (2014). Preparation, surface and pore structure of high surface area activated carbon fibers from bamboo by steam activation, Materials, 7, 4431-4441, DOI:10.3390/ma7064431. Tretsiakova-Mcnally, S., Joseph, P., (2018). Thermal and calorimetric evaluations of polyacrylonitrile containing covalently-bound phosphonate groups, Polymers, 10, 1-14, DOI:10.3390/polym1002013. Simitzis, J.C., Georgiou, P.C., (2015). Functional group changes of polyacrylonitrile fibres during their oxidative

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A Review of the Radio Frequency Non-destructive Testing for Carbon-fibre Composites

References [1] Soutis, C. (2005). Carbon fiber reinforced plastics in aircraft construction. Materials Science and Engineering A, 412 (1-2), 171-176. [2] Zhang, J., Shi, C., Ma, Y., Han, X., Li, W., Chang, T., Wei, D., Du, C., Cui, H.L. (2015). Spectroscopic study of terahertz reflection and transmission properties of carbon-fiber-reinforced plastic composites. Optical Engineering, 54 (5), 054106. [3] Pozar, D.M. (2009). Microwave Engineering. John Wiley & Sons. [4] Tse, K.W., Moyer, C.A., Arajs

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Analytical, Numerical and Experimental Examination of Reinforced Composites Beams Covered with Carbon Fiber Reinforced Plastic

Analytical, Numerical and Experimental Examination of Reinforced Composites Beams Covered with Carbon Fiber Reinforced Plastic

In the article, analytical, numerical (Finite Element Method) and experimental investigation results of beam that was strengthened with fiber reinforced plastic-FRP composite has been given as comparative, the effect of FRP wrapping number to the maximum load and moment capacity has been evaluated depending on this results. Carbon FRP qualitative dependences have been occurred between wrapping number and beam load and moment capacity for repair-strengthen the reinforced concrete beams with carbon fiber. Shown possibilities of application traditional known analysis programs, for the analysis of Carbon Fiber Reinforced Plastic (CFRP) strengthened structures.

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Carbon Fiber Polymer Composites

. 2nd ed. , Marcel Dekker. Goodman, S.H. 1986. Handbook of Thermoset Plastics , Noyes, pp. 133–182. McKee, D.W., Memeault, V.J., 1981. Surface Properties of Carbon Fibers . Chemistry and Physics of Carbon, 17, Marcel Dekker, p. 1. Selzer, R., Friedrich, K., 1996. Mechanical properties and failure behaviour of carbon fibre-reinforced polymer composites under the influence of moisture. Composites Part A, p. 595-604. Singer, L., 1994. Overview of Carbon Fiber Technology . Material Technology Center Newsletter, Southern Illinois Univ. at

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Surface modification of carbon fibres using plasma technique

(1984), pp. 55-72 [4] Hoecker, F.; Karger-Kocsis, J.: Surface energetics of carbon fibers and its effects on the mechanical performance of CF/EP composites, Journal of Applied Polymer Science, 59(1996), pp. 139-153 [5] http://www.tohotenax-eu.com, (accessed 09.07.2013) [6] Krekel, G.; Hüttinger, J.; Hoffmann, W. P.; Silver, D. S.: The relevance of the surface structure and surface chemistry of carbon fibres in their adhesion to high –temperature thermoplastics, Journal of Materials Science, Part I Surface structure and morphology, 29(1994), pp. 2968-2980 [7

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Experimental Procedure Used To Determine The Flexural Rigidity For Composite Sandwich Bars With Various Thickness Values

5. References 1. Oya, A., Kasahara, N., Horigome, R., Structure of porous carbon-fiber from phenolic polymer containing polystyrene microbeads, Journal of Materials Science Letters , Vol. 20, pp. 409-411, (2001). 2. Lukyanov, A., A., Effect of fiber orientation on the structure of shock waves in carbon fiber-epoxy composites, Mechanics of Composite Materials , Vol. 47, No. 6, pp. 617-626, (2012). 3. Stănescu, N., M., Bolcu, D., Pastramă, S., D., Ciucă, I., Manea, I., Baciu, F., Determination of damping factor, to vibrations of composite bars

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