Improvement of adhesive properties and load capacity of the lubricant layer of friction units

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Zeitschriftentitel:	VESTNIK of Samara University. Aerospace and Mechanical Engineering
Personen und Körperschaften:	Gromakovsky, D. G., Koptev, A. A., Kryshen, E. D., Haustov, V. I., Shigin, S. B.
In:	VESTNIK of Samara University. Aerospace and Mechanical Engineering, 15, 2016, 3, S. 53-59
Format:	E-Article
Sprache:	Unbestimmt
veröffentlicht:	Samara National Research University
Schlagwörter:	General Materials Science

author_facet	Gromakovsky, D. G. Koptev, A. A. Kryshen, E. D. Haustov, V. I. Shigin, S. B. Gromakovsky, D. G. Koptev, A. A. Kryshen, E. D. Haustov, V. I. Shigin, S. B.
author	Gromakovsky, D. G. Koptev, A. A. Kryshen, E. D. Haustov, V. I. Shigin, S. B.
spellingShingle	Gromakovsky, D. G. Koptev, A. A. Kryshen, E. D. Haustov, V. I. Shigin, S. B. VESTNIK of Samara University. Aerospace and Mechanical Engineering Improvement of adhesive properties and load capacity of the lubricant layer of friction units General Materials Science
author_sort	gromakovsky, d. g.
spelling	Gromakovsky, D. G. Koptev, A. A. Kryshen, E. D. Haustov, V. I. Shigin, S. B. 2541-7533 2542-0453 Samara National Research University General Materials Science http://dx.doi.org/10.18287/2541-7533-2016-15-3-53-59 <jats:p>The results of development of the technologies ensuring an increase of wear resistance, lowering of noise and vibration level in frictional units are discussed in the paper. The most efficient technologies of formation of fluorinated microsized films on the friction surface improving the wear resistance, contact fatigue and durability of connection of the lubricant layer with friction surfaces; molecular reinforcement of surface defects decelerating the development of fatigue damages; the effect of multilubrication improvng adhesion and load characteristics of the lubricant layer, its absorbing capacity, etc. are determined. The technology of formation of fluorinated films is implemented by the introduction of graphite fluoride additive to lubricant oil. In the case of molecular reinforcement the effect of increasing wear resistance and contact endurance is connected with the passivation of surface defects formed in final treatment. Defect passivation is realized by dipping of the processed details in the oil containing solid particles in the resonant mode. In the case of multilubrication the effect of creating an underlayer of lubricant on the basis of a highly adhesive material, for example, of polimetilsiloksan produced by the JSC TogliattiAzot is realized. The creation of a low frequency cavitational method and installations for washing parts of friction units at the Nadezhnost Research and Development Center of SSTU is a important collateral development. The first installations are implemented at the JSC Progress SpaceRocket Center and the JSC Aviaagregat of the Tekhnodinamika Holding.</jats:p> Improvement of adhesive properties and load capacity of the lubricant layer of friction units VESTNIK of Samara University. Aerospace and Mechanical Engineering
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title	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_unstemmed	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_full	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_fullStr	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_full_unstemmed	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_short	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_sort	improvement of adhesive properties and load capacity of the lubricant layer of friction units
topic	General Materials Science
url	http://dx.doi.org/10.18287/2541-7533-2016-15-3-53-59
publishDate	2016
physical	53-59
description	<jats:p>The results of development of the technologies ensuring an increase of wear resistance, lowering of noise and vibration level in frictional units are discussed in the paper. The most efficient technologies of formation of fluorinated microsized films on the friction surface improving the wear resistance, contact fatigue and durability of connection of the lubricant layer with friction surfaces; molecular reinforcement of surface defects decelerating the development of fatigue damages; the effect of multilubrication improvng adhesion and load characteristics of the lubricant layer, its absorbing capacity, etc. are determined. The technology of formation of fluorinated films is implemented by the introduction of graphite fluoride additive to lubricant oil. In the case of molecular reinforcement the effect of increasing wear resistance and contact endurance is connected with the passivation of surface defects formed in final treatment. Defect passivation is realized by dipping of the processed details in the oil containing solid particles in the resonant mode. In the case of multilubrication the effect of creating an underlayer of lubricant on the basis of a highly adhesive material, for example, of polimetilsiloksan produced by the JSC TogliattiAzot is realized. The creation of a low frequency cavitational method and installations for washing parts of friction units at the Nadezhnost Research and Development Center of SSTU is a important collateral development. The first installations are implemented at the JSC Progress SpaceRocket Center and the JSC Aviaagregat of the Tekhnodinamika Holding.</jats:p>
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author	Gromakovsky, D. G., Koptev, A. A., Kryshen, E. D., Haustov, V. I., Shigin, S. B.
author_facet	Gromakovsky, D. G., Koptev, A. A., Kryshen, E. D., Haustov, V. I., Shigin, S. B., Gromakovsky, D. G., Koptev, A. A., Kryshen, E. D., Haustov, V. I., Shigin, S. B.
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description	<jats:p>The results of development of the technologies ensuring an increase of wear resistance, lowering of noise and vibration level in frictional units are discussed in the paper. The most efficient technologies of formation of fluorinated microsized films on the friction surface improving the wear resistance, contact fatigue and durability of connection of the lubricant layer with friction surfaces; molecular reinforcement of surface defects decelerating the development of fatigue damages; the effect of multilubrication improvng adhesion and load characteristics of the lubricant layer, its absorbing capacity, etc. are determined. The technology of formation of fluorinated films is implemented by the introduction of graphite fluoride additive to lubricant oil. In the case of molecular reinforcement the effect of increasing wear resistance and contact endurance is connected with the passivation of surface defects formed in final treatment. Defect passivation is realized by dipping of the processed details in the oil containing solid particles in the resonant mode. In the case of multilubrication the effect of creating an underlayer of lubricant on the basis of a highly adhesive material, for example, of polimetilsiloksan produced by the JSC TogliattiAzot is realized. The creation of a low frequency cavitational method and installations for washing parts of friction units at the Nadezhnost Research and Development Center of SSTU is a important collateral development. The first installations are implemented at the JSC Progress SpaceRocket Center and the JSC Aviaagregat of the Tekhnodinamika Holding.</jats:p>
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spelling	Gromakovsky, D. G. Koptev, A. A. Kryshen, E. D. Haustov, V. I. Shigin, S. B. 2541-7533 2542-0453 Samara National Research University General Materials Science http://dx.doi.org/10.18287/2541-7533-2016-15-3-53-59 <jats:p>The results of development of the technologies ensuring an increase of wear resistance, lowering of noise and vibration level in frictional units are discussed in the paper. The most efficient technologies of formation of fluorinated microsized films on the friction surface improving the wear resistance, contact fatigue and durability of connection of the lubricant layer with friction surfaces; molecular reinforcement of surface defects decelerating the development of fatigue damages; the effect of multilubrication improvng adhesion and load characteristics of the lubricant layer, its absorbing capacity, etc. are determined. The technology of formation of fluorinated films is implemented by the introduction of graphite fluoride additive to lubricant oil. In the case of molecular reinforcement the effect of increasing wear resistance and contact endurance is connected with the passivation of surface defects formed in final treatment. Defect passivation is realized by dipping of the processed details in the oil containing solid particles in the resonant mode. In the case of multilubrication the effect of creating an underlayer of lubricant on the basis of a highly adhesive material, for example, of polimetilsiloksan produced by the JSC TogliattiAzot is realized. The creation of a low frequency cavitational method and installations for washing parts of friction units at the Nadezhnost Research and Development Center of SSTU is a important collateral development. The first installations are implemented at the JSC Progress SpaceRocket Center and the JSC Aviaagregat of the Tekhnodinamika Holding.</jats:p> Improvement of adhesive properties and load capacity of the lubricant layer of friction units VESTNIK of Samara University. Aerospace and Mechanical Engineering
spellingShingle	Gromakovsky, D. G., Koptev, A. A., Kryshen, E. D., Haustov, V. I., Shigin, S. B., VESTNIK of Samara University. Aerospace and Mechanical Engineering, Improvement of adhesive properties and load capacity of the lubricant layer of friction units, General Materials Science
title	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_full	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_fullStr	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_full_unstemmed	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_short	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_sort	improvement of adhesive properties and load capacity of the lubricant layer of friction units
title_unstemmed	Improvement of adhesive properties and load capacity of the lubricant layer of friction units
topic	General Materials Science
url	http://dx.doi.org/10.18287/2541-7533-2016-15-3-53-59