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The research of anti corrosive properties of various compositions on samples of standard metals

. Eng. 132(1). 011017 DOI:10.1115/1.4000859 10. Myshkin, N.K. & Markova, L.V. (2016). Methods and Instruments for Condition Monitoring of Lubricants. In: On-line Condition Monitoring in Industrial Lubrication and Tribology. Appl. Condit. Monitoring, 8, 1–29 Springer. Cham. 11. Zhao, F., Urbance, M. & Skerlos, S.J. (2004). Mechanistic Model of Coaxial Microfiltration for Semi-Synthetic Metalworking Fluid Microemulsions. J. Manufact. Sci. Enginee. 126(3), 435. . 12. Shujun

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Parametric Optimization of Coal Desulfurization Through Alkaline Leaching

. (2006) Desulfurization of mezino coal using combination of ‘fl otation’and‘leaching with potassium hydroxide/methanol. Fuel 85(7), 1117. DOI: 10.1016/j.fuel.2005.10.011 10.1016/j.fuel.2005.10.011. 7. Demirbaş, A. (2002) Demineralization and desulfurization of coals via column froth fl otation and different methods. Energy Convers Manage 43(7), 885. DOI: 10.1016/S0196-8904(01)00088-7 10.1016/S0196-8904(01)00088-7. 8. Celik, M. & Yildirim, I. (2000) A new physical process for desulfurization of low-rank coals. Fuel 79(13), 1665. DOI: 10

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Enzymatic synthesis and characterization of polycaprolactone by using immobilized lipase onto a surface-modified renewable carrier

. 6. Kharrat, N., Ali, Y.B., Marzouk, S., Gargouri, Y.T. & Karra-Châabouni, M. (2011). Immobilization of Rhizopus oryzae lipase on silica aerogels by adsorption: Comparison with the free enzyme. Process Biochem. 46, 1083-1089. DOI: 10.1016/j. procbio.2011.01.029. 7. Zheng, M.M., Lu, Y., Dong, L., Guo, P.M., Deng, Q.C., Li, W.L., Feng, Y.Q. & Huang, F.H. (2012). Immobilization of Candida rugosa lipase on hydrophobic/strong cation-exchange functional silica particles for biocatalytic synthesis of phytosterol esters. Bioresour. Technol. 115, 141

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Recovery of aluminium from multi-component packaging using a fluidised bed reactor

on Fluidized Bed Combustion, 21-24 May 2006 (Paper 43C). Vienna, Austria. Baron, J., Bulewicz E. M., Żukowski W., Kandefer S. & Pilawska M. (2002). Combustion of hydrocarbon fuels in a bubbling fluidized bed. Combust. Flame 128(4), 410-421. DOI: 10.1016/S0010-2180(01)00359-5. Baron, J., Bulewicz E. M., Kandefer S., Pilawska M., Żukowski W. & Hayhurst A. N. (2006). The combustion of polymer pellets in a bubbling fluidised bed. Fuel 85(17-18), 2494-2508. DOI: 10.1016/j.fuel.2006

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Electrochemical deposition of coatings of highly entropic alloys from non-aqueous solutions

-103. 5. Zhou Y.J. et al. Solid solution alloys of AlCoCrFeNiTix with excellent room-temperature mechanical properties, Applied Physics Letters 2007 , 90, 181904. 6. Wang X.F. et al. Novel microstructure and properties of multicomponent CoCrcuFeNuTix alloys, Intermetallics 2007 , 15, 357-362. 7. Tsai C.W. et al. Effect of temperature on mechanical properties of Al 0.5 CoCrCuFeNi wrought alloy, Journal of Alloys and Compounds 2010 , 490, 160-165. 8. Senkov O.N. et al. Mechanical properties of Nb 25 Mo 25 Ta 25 W 25 and V 20 Nb 20 Mo 20 Ta 20 W

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Issues related to waste sewage sludge drying under superheated steam

LITERATURE CITED 1. Hamawand, I. (2011). Effect of Colloidal Particles associated with the Liquid Bridge in Sticking during Drying in Superheated Steam. Inter. J. Engineer . 24(2), 119–126. 2. Bhandari, B. & Howes, T. (2005). Relating the stickiness property of food undergoing drying and dried products to their surface energy. Drying Technol. 23, 781–797. DOI: 10.1081/DRT-200054194. 3. Mazzone, D.N., Tardos, G.I. & Pfeffer, R. (1987). The behaviour of liquid bridges between two relatively moving particles. Powder Technol. . 51, 71–83. DOI

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Application of Response Surface Methodology for Optimization of Permeabilization Process of Baker’s Yeast

. & Cabib, E. (1984). Saccharomyces cerevisiae mannoproteins form an external cell wall layer that determines wall porosity. J. Bacteriol. 159, 1018–1026. 10. Joshi, M.S., Gowda, L.R., Katwa, L.C. & Bhat, S.G. (1989). Permeabilization of yeast cells ( Kluyveromyces fragilis ) to lactose by digiton. Enzyme Microb. Technol. 11, 439–443. DOI: 10.1016/0141-0229(89)90140-3. 11. Gowda, L.R., Bachhawat, N., & Santhoor, G.B. (1991). Permeabilization of bakers’ yeast by cetyltrimethylammonium bromide for intracellular enzyme catalysis. Enzyme Microb. Technol. 13, 154

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Flame resistant cellulosic substrate using banana pseudostem sap

. Nguyen, T.M.D., Chang, S., Condon, B., Uchimiya, M. & Fortier, C. (2012). Development of an environmentally friendly halogen free phosphorous nitrogen bond flame retardants for cotton fabrics. Polym. Adv. Technol. 23, 1555-1563. DOI: 10.1002/pat.3029. 7. Hady, A.A.E., Farouk, A. & Sharaf, S. (2013). Flame retardancy and UV protection of cotton based fabrics using nano ZnO and polycarboxylic acid. Carbohydr. Polym. 92 (1), 400-406. DOI: 10.1016/j.carbpol.2012.08.085. 8. Sarvanan, D., Lakshmi, S.N.S., Raja, K.S. & Vasahi, N.S. (2013

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Soft computing model for analysing the effect of friction stir processing parameters on the intergranular corrosion susceptibility of aluminium alloy AA5083

, 43 (7), 799-812. 6. R. S. Mishra, P. S. De, and N. Kumar, “Fundamental Physical Metallurgy Background for FSW/P,” Friction Stir Welding and Processing: Science and Engineering , pp. 59-93, Cham: Springer International Publishing, 2014. 7. R. S. Mishra, and Z. Ma, “Friction stir welding and processing,” Materials Science and Engineering: R: Reports 2005 , 50 (1), 1-78. 8. R. Padmanaban, V. Balusamy, and V. R. Kishore, “Effect of axial pressure and tool rotation speed on temperature distribution during dissimilar friction stir welding

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Hydrophilic films based on starch and carboxymethyl starch

carboxymethyl starch/montmorillonite nano-composite films. Carbohyd. Polym. 128, 85–89. DOI: 10.1016/j.carbpol.2015.04.023. 9. Antosik, A.K., Wilpiszewska, K. & Czech, Z. (2017). Carboxymethylated polysaccharide-based films as carriers for acrylic pressure-sensitive adhesives. Int. J. Adhes. Adhes. 73, 75–79. DOI: 10.1016/j.ijadhadh.2016.11.011. 10. Kessel, H. (1985). Determination of the functional group and the degree of substitution of carboxymethyl starch. Starch 37, 334–336. DOI: 10.1002/star.19850371005. 11. Reddy, N. & Yang, Y. (2010). Citric acid

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