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IMPROVEMENT OF PLASMA COATINGS QUALITY CHARACTERISTICS

IMPROVEMENT OF PLASMA COATINGS QUALITY CHARACTERISTICS. Developed by Ievgeniia Tarasova Mechanical supervisor -Fedor Vachkevich English supervisor -Viktoria Kuz’menko.

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IMPROVEMENT OF PLASMA COATINGS QUALITY CHARACTERISTICS

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  1. IMPROVEMENT OF PLASMA COATINGS QUALITY CHARACTERISTICS Developed by Ievgeniia Tarasova Mechanical supervisor -Fedor Vachkevich English supervisor -Viktoria Kuz’menko

  2. The main idea of the present work is to develop plasma coating formulations and their application technology that will allow to achieve maximal performance characteristics.

  3. Applicationsareas Plasma spray coating is becoming more widely used in industry to protect a variety of parts and tools from wear, corrosion and erosion

  4. Plasma coating is the one obtained by applying molten metal particles on a previously prepared surface using a plasma jet.

  5. Improvement of plasma coating quality characteristics is held in the following areas: • activities to improve the quality by pretreatment of powders and protected surface; • activities for coatings quality improvement during the process of spraying (technological regimes optimization); • activities for coatings quality improvement by treating surfaces after their formation

  6. Technological parameters that influence coatings formation and micro-asperities hight are: • spraying distance • spraying angle of a pneumatic gun • abrasive particle size • air pressure • powder consumption • speed of burner

  7. Influence of dispersion distance (L) and slope angle of pneumogun (α) on the micro unevenness height(Rа)* Table1

  8. Table2 Influence of abrasive size (μ) and air pressure (Р) on the micro unevenness height (Rа)

  9. The table data (tabl.1 and tabl. 2) analysis showed that: • with reduction of slope angle of pneumogun to the surface of detail the surface roughness also reduses at permanent distance from pneumogun to the detail and identical compressed air pressure; • the increase of abrasive particles size results in the increase of roughness at permanent compressed air pressure; • reduction of compressed air pressure results in the reduction of roughness at the identical abrasive particles size.

  10. Fig.1 Influence of technological parameters of the plasma setting work on eventual properties of coverages. Х1 –current strength(А); Х2 – tension on an arc (В); Х3 – expense of plasma-forming gas of argon (l/mine); АВСDЕ is the compromise region of the criteria У1, У2, У3, У4; FGDE is optimal spraying region of thermal coverages. Mathematical method of prediction experiment

  11. In order to improve the coatings quality it is recommended to apply plasma and micro-plasma melting а) b) c) Fig.2 Structure of sprayed coverage from the SNGN alloy after melting: a – in a stove with a low oxidizing atmosphere; b – currents of high-frequency; c – micro-plasma burner. х 200 а)

  12. Conclusion 1. The analysis of surface preparation approach used before spraying gave an opportunity to choose pnuematical surface preparation by means of electrolytic as the most efficient one since it allows to adjust the surface roughness in a wider range. 2. Mathematical investigation made it possible to create the range of criteria compromising by means of graphical-analytical approach. Moreover it allowed to make optimal range of gas-termal spraying. 3. Among all the investigated methods of surface melting aimed on quality improvement it is advisable to implement plasma and microplasma melting as it makes possible to achieve tight and strong coupling of protection layers of steel and titan. All the investigations held in the research work allowed to develop technical tutorials used for producing improved quality features plasma surfaces.

  13. THANKS FOR ATTENTION

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