Antistatic Composite Coаtings on the Basis of Powder Paints

Sergey Panin; Sergey Y. Yazykov; Boris Ovechkin

doi:10.4028/www.scientific.net/AMR.1040.3

Paper Titles

Preface and Committees

Antistatic Composite Coаtings on the Basis of Powder Paints
p.3

Application of Polymer Gel-Electrolytes for Cleaning and Restoration of Steel Objects
p.8

Design and Investigation of Hard Metal Composites Modified by Nanoparticles
p.13

Development of New Ni-Al Porous Alloys for Metal-Supported Solid Oxide Fuel Cells
p.19

Effect of Thermomechanical Treatment on Superelasticity in Ni₅₄Fe₁₉Ga₂₇ Single Crystals
p.24

Electromagnetic Properties of W – Hexaferrites Composites with Magnetic Texture
p.29

Electrophysical Characteristics of Metal-Insulator-Semiconductor Structures Comprising CdHgTe-Based Quantum Wells
p.34

Evaluation of Physical and Mechanical Properties of Structural Components of Ti-Nb Alloy
p.39

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1040Antistatic Composite Coаtings on the Basis of...

Antistatic Composite Coаtings on the Basis of Powder Paints

Abstract:

For operating under outer space conditions besides providing originally specified protective function, coating should often ensure accomplishment of functional properties, for instance conductivity of electric current. The solution of this problem can be reached by adding powder fillers with specified functional properties into powder paint. The paper deals with development of technique for formation of protective conducting coatings by filling powder paints and treatment in planetary ball mill. For protection of magnesium alloy shells the technique is offered which combines formation of the oxidized sublayer, introduction of electroconductive filler, treatment of the powder mixture in the planetary ball mill and electrostatic deposition of sifted mixture of definite dispersion. This allows sinking of static electricity from cabinets of the equipment for the space-crafts applications in conditions of the outer space.

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Periodical:

Advanced Materials Research (Volume 1040)

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3-7

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1040.3

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Online since:

September 2014

Authors:

Sergey Panin*, Sergey Y. Yazykov, Boris Ovechkin

Keywords:

Electroconducting Filler, Mechanical Treatment, Packing Density, Planetary Ball Mill, Powder Coating, Structure

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