The Selected Tribological and Structural Properties of Protective Coatings Obtained by Different Methods

Krzysztof Szymański; Bożena Szczucka-Lasota

doi:10.4028/www.scientific.net/SSP.246.81

Paper Titles

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Application of a Digital Strain Analyzer AutoGrid at Thin Sheet Metals Mechanical Characteristics Preparation and Assessment of their Drawability
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The Selected Tribological and Structural Properties of Protective Coatings Obtained by Different Methods
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The Influence of the Chemical Composition of a Zinc Bath upon Corrosion Resistance of Coatings Obtained on Sebisty Steel
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The Influence of the Thickness of a Rebar on the Growth Kinetics and Structure of Hot Dip Zinc Coatings
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Corrosion Resistance of ZnAlMg Alloys for Batch Hot Dip Galvanizing
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HomeSolid State PhenomenaSolid State Phenomena Vol. 246The Selected Tribological and Structural...

The Selected Tribological and Structural Properties of Protective Coatings Obtained by Different Methods

Abstract:

The coatings were obtained by high velocity oxy fuel method and their modification - new hybrid-spraying process. In this paper, the influence of manufacturing technology on structure and properties of coatings is presented. Examination of mechanical properties (microhardness) and selected results of tribological investigations of new material coatings are presented. The abrasion and erosion wear of materials were tested in ambient and elevated temperature. The article presents the results of structural studies of coatings too. Using a thickness gauge the rated uniformity of the applied coating, the thickness were determined. Microstructure, porosity, density of obtained coating was assessed using LM microscope. The obtained results confirm good erosion and abrasion properties of the tested coatings. Presented results indicate that the tested coatings may be used as a basic protection to wear condition in the energy industry.

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Periodical:

Solid State Phenomena (Volume 246)

Pages:

81-84

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.246.81

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Online since:

February 2016

Authors:

Krzysztof Szymański*, Bożena Szczucka-Lasota

Keywords:

Abrasion Resistance, Erosion, New Hybrid Spraying Method, Power Industry

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