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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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Mechanical properties evaluation and ultrasound diagnosis of unsaturated polyester-glass pipes

Abstract

The purpose of the present work was the elaboration of research methodology of the exhaustion degree of performance properties of pipes based on unsaturated polyester and glass fibers, which were manufactured by the cross winding method on a poly(vinyl chloride) core. Within the frame of the work we conducted fatigue-ageing tests being the simulation tool of the degradation process of polyester-glass pipes. Diagnosis of the composite material condition was conducted with the use of nondestructive ultrasonic testing with the application of the echo method, in which the transition time of ultrasonic wave was determined as the identifying parameter. The registered transition time of ultrasonic wave allowed the identification of the material condition during the course of pipes exploitation.

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The structure and properties of eucalyptus fiber/phenolic foam composites under N-β(aminoethyl)-γ-aminopropyl trimethoxy silane pretreatments

(03)00210-0. 6. Shen, H. & Nutt, S. (2003). Mechanical characterization of short fiber reinforced phenolic foam. Composites Part A: Applied science and manufacturing. 34(9), 899–906. DOI:10.1016/S1359-835X(03)00136-2. 7. Bledzki, A. & Gassan, J. (1999). Composites reinforced with cellulose based fibres. Prog. Polym. Sci. 24(2), 221–274. DOI: 10.1016/S0079-6700(98)00018-5. 8. Canche-E scamilla, G., Cauich-Cupul, J., Mendizabal, E., Puig, J., Vazquez-Torres, H. & Herrera-Franco, P. (1999). Mechanical properties of acrylate-grafted henequen cellulose

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Flame resistant cellulosic substrate using banana pseudostem sap

challanges for textiles and fibres. Polym. Degrad. Stabil., 96 (3), 377-392. DOI: 10.1016/j.polymdegradstab.2010.03.036. 4. Kei, S.C.H. (2010). The effect of atmospheric pressure plasma on flame retardant property of cotton. Institute of Textile and Clothing, Bachelor of Arts in Fashion Technology thesis, Hong Kong Polytechnic University. 5. Katovic, D., Grgae, S.F., Vukusic, S.B. & Katovic, A. (2012). Formaldehyde free binding systems for flame retardant finishing of cotton fabrics. Fibres Text. East. Eur. 1(90), 94-98. 6

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Physico-chemical and dispersive characterisation of magnesium oxides precipitated from the Mg(NO3)2 and MgSO4 solutions

.06.046. Wu, H., Shao, M., Gu, J. & Wei, X. (2004). Microwaveassisted synthesis of fibre-like Mg(OH) 2 nanoparticles in aqueous solution at room temperature, Mater. Lett. 58, 2166-2169. DOI: 10.1016/j.matlet.2004.01.010. Polshettiwar, V., Baruwati, B. & Varma, R. S. (2009). Self-assembly of metal oxides into three-dimensional nanostructures: Synthesis and application in catalysis, ACS NANO 3, 728-736. DOI: 10.1021/nn800903p. Marciniak, H. & Diduszko, R. (2004). X-Rayan — software for structure analysis and

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Optimization Of Protocol For Biodiesel Production Of Linseed (Linum Usitatissimum L.) Oil

. (2006). Transesterification of neat and used frying oil: optimization for biodiesel production. Fuel Process. Technol. 87, 883-890. DOI: 10.1016/j.fuproc.2006.06.003. 14. Tariq, M., Ali, S., Ahmad, F., Ahmad, M., Zafar, M., Khalid, N. & Khan, M.A. (2011). Identification, FT-IR, NMR (1H and 13C) and GC/MS studies of fatty acid methyl esters in biodiesel from rocket seed oil. Fuel Process.Technol . 91, 336-341. DOI: 10.1016/j.fuproc.2010.09.025. 15. Sales, A. (2011). Production of biodiesel from sunflower oil and ethanol by base

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Activated carbons from common nettle as potential adsorbents for CO2 capture

selected classical equations in different relative pressures. J. Math. Chem. 42, 815–835. DOI: 10.1007/s10910-006-9143-4. 67. Kwiatkowski, M. (2007). Comparison of the evaluation reliability of microporous structure parameters by employing single and double adsorption isotherms. Colloids Surf., A. 294, 92–101. DOI: 10.1016/j.colsurfa.2006.07.050. 68. Kwiatkowski, M. (2009). Computer analysis of the microporous structure of activated carbon fibres using the fast multivariant identification procedure of adsorption system parameters. Colloids Surf., A. 330

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Can β-D-Glucan Protect Oat Seeds against a Heat Stress?

synthesis. J. Cereal Sci., 38, 2003, 133-146. EHRENBERGEROVÁ, J., VACULOVÁ, K., PSOTA, V., HAVLOVÁ, P., ŠERHANTOVÁ, V.: Effects of cropping system and genotype on variability in important phytonutrients content of the barley grain. Plant Soil Environ., 49, 2003, 443-450. FARROKHI, N., BURTON, R.A., BROWNFIELD, L., HRMOVA, M., WILSON, S.M., BACIC, A., FINCHER, G.B.: Plant cell wall biosynthesis: genetic, biochemical and functional genomics approaches to the identification of key genes. Plant Biotechnol. J., 4, 2006, 145-167. FASTNAUGHT, C.: Barley fibre

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Determination of selected phenolic acid and majoritarian avenanthramides in different varieties of naked oats (Avena sativa L.) grown in Slovakia

-2378. Menon R, Gonzalez T, Ferruzzi M, Jackson E, Winderl D, Watson J (2016) Oats -from farm to fork. Adv. Food Nutr. Res. 77: 1-55. Multari S, Pihlava JM, Ollennu-Chuasam P, Hietaniemi V, Yang B, Suomela JP (2018) Identification and quantification of avenanthramides and free and bound phenolic acids in eight cultivars of husked oat (Avena sativa L.) from Finland. J. Agric. Food Chem. 66: 2900-2908. Ren Y, Yang X, Niu X, Liu S, Ren G (2011) Chemical characterization of the avenanthramide-rich extract from oat and its effect on D

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Nutritional composition, total phenolic compounds and antioxidant activity of quinoa (Chenopodium quinoa Willd.) of different colours

of alfalfa saponins in cynomolgus macaques. J. Med. Primatol. 11: 106-118. Medina W, Skurtys O, Aguilera JM (2010) Study on image analysis application for identification quinoa seeds ( Chenopodium quinoa Willd) geographical provenance. LWT - Food Sci. Technol. 43: 238-246. Miranda M, Vega-Gálvez A, Quispe-Fuentes I, Rodríguez, MJ, Maureira H, Martínez EA (2012) Nutritional aspects of six quinoa ( Chenopodium quinoa Willd.) ecotypes from three geographical areas of Chile. Chil. J. Agr. Res. 72: 175-181. Mota C, Nascimento AC, Santos M, Delgado I

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