Email this article Oxidation Resistance of Nano-Reinforced PC-Refractories Modified with Phenol Formaldehyde Resin. Part 5. Optimization of Filler Grain Size Composition by Means of a Simplex-Lattice Planning Method Using Complex Modification of Charge Components1
- Authors: Borisenko O.N.1, Semchenko G.D.2, Povshuk V.V.2, Vasyuk P.A.2
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Affiliations:
- Semen Kuznets Khar’kov National Economic University
- National Technical University, Kharkov Polytechnic Institute
- Issue: Vol 58, No 5 (2018)
- Pages: 530-533
- Section: Scientific Research and Development
- URL: https://journals.rcsi.science/1083-4877/article/view/248906
- DOI: https://doi.org/10.1007/s11148-018-0138-z
- ID: 248906
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Abstract
Asimplex-lattice planning method for an experiment is used to study the effect of periclase filler fraction composition on PC-refractory properties during whose production there is use of complex modification of charge components heat treated at 180 and 1350°C. The periclase filler fractional composition is optimized providing achievement of prescribed PC-material property indices for improving oxidation resistance due to creating Al + SiC + Ni(NiO) antioxidant from an organic-inorganic complex (–CH3)–(SiO2)n–Ni(NiO)–C using inorganic nickel salt as its source.
About the authors
O. N. Borisenko
Semen Kuznets Khar’kov National Economic University
Email: galashabanova@ukr.net
Ukraine, Khar’kov
G. D. Semchenko
National Technical University, Kharkov Polytechnic Institute
Author for correspondence.
Email: galashabanova@ukr.net
Ukraine, Khar’kov
V. V. Povshuk
National Technical University, Kharkov Polytechnic Institute
Email: galashabanova@ukr.net
Ukraine, Khar’kov
P. A. Vasyuk
National Technical University, Kharkov Polytechnic Institute
Email: galashabanova@ukr.net
Ukraine, Khar’kov
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