Studies of Tribological and Corrosion Properties of Coatings Based on Iron for Light Alloy Drill Pipes of Aluminium Alloys

Boris Aleksandrovich Shemyakinskiy; Margarita Aleksandrovna Skotnikova; Zi Xi Wang; Alexey Alexandrovich Alkhimenko

doi:10.4028/www.scientific.net/KEM.822.709

Paper Titles

Study of Micro-Hardness of Steel Surfaces after their Friction in the Medium of Plastic Lubricating Material Used in the Units and Mechanisms of Equipment of Oil and Gas and Shipbuilding Industry
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Method of Testing Rolled Tubular Products for Oilfield Pipes for Corrosion-Abrasive Wear
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Evaluation of the Strength of Flat Gears According to the Criterion of the Onset of Plastic Deformation
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Semiempirical Mathematical Models of Spinning Friction Steel ShKh15 Steel Titles on Steel R6M5, on a Scheme of a Globe Plane Taking into Account Wear
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Studies of Tribological and Corrosion Properties of Coatings Based on Iron for Light Alloy Drill Pipes of Aluminium Alloys
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Strain and Friction Effect on the Stress-Strain State in the Deformation Zone during Cold Rolling of Thin Beryllium and Aluminum Foils
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Quasi-Optimal Correlation Algorithm for Measuring the Parameters of Surface Microrelief
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Method for Determining Texture Parameters of Processed Precision Surfaces by Correlation
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Finite Element Simulation of Temperature Field during Friction Surfacing of Al-5Mg Consumable Rod
p.737

HomeKey Engineering MaterialsKey Engineering Materials Vol. 822Studies of Tribological and Corrosion Properties...

Studies of Tribological and Corrosion Properties of Coatings Based on Iron for Light Alloy Drill Pipes of Aluminium Alloys

Abstract:

The paper presents the results of tribotechnical studies of anti-wear properties of iron-based coatings for light-alloy drill pipes made of aluminum alloys. The description of the tribotechnical stand simulating real processes of drilling in a wide range of conditions is given. Also, the analysis of corrosion resistance of coatings by electrochemical analysis was carried out. The results showed that there is a potential for the use of this type of coating.

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Periodical:

Key Engineering Materials (Volume 822)

Pages:

709-715

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.822.709

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Online since:

September 2019

Authors:

Boris Aleksandrovich Shemyakinskiy*, Margarita Aleksandrovna Skotnikova, Zi Xi Wang, Alexey Alexandrovich Alkhimenko

Keywords:

Aluminum Alloys, Coatings, Corrosion, Drilling, Electrochemistry, Friction, Light Alloy Drill Pipe, Tribotechnical Stand, Wear

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