FIELD: mechanical engineering; application of coats by gas-thermal method at high adhesion and cohesion. SUBSTANCE: substrate is acted on simultaneously by activating and spraying particles. Spraying spots are combined. As a result, mechanic- activation of substrate surface; weakly adhesive particles are removed. Angles of spraying are within 40-45 deg. EFFECT: enhanced efficiency of mechano-activation. 2 ex
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD FOR DEPOSITION OF HEAT-PROTECTIVE COATING | 2003 |
|
RU2247792C2 |
| COAT DEPOSITION METHOD | 1997 |
|
RU2146302C1 |
| METHOD FOR PLASMA SPRAYING CERAMIC COATINGS | 1991 |
|
RU2021388C1 |
| METHOD FOR PLASMA DEPOSITION OF NANOSTRUCTURED HEAT SHIELD | 2017 |
|
RU2683177C1 |
| METHOD OF APPLICATION OF HEAT-INSULATING EROSION-RESISTANT COAT | 2004 |
|
RU2260071C1 |
| ABRASION-RESISTANT COATING | 2000 |
|
RU2191217C2 |
| METHOD OF ELECTRIC ARC SPRAYING OF COATING | 2019 |
|
RU2715827C1 |
| METHOD OF GAS-THERMAL COATING APPLICATION ON PRODUCT SURFACE | 2013 |
|
RU2545880C2 |
| METHOD FOR SPRAYING COATING ON INTERNAL SURFACE OF TUBULAR ARTICLES | 2000 |
|
RU2186148C2 |
| HIGH-POWER PLASMA EVAPORATION OF HEAT-INSULATING COATING ON GAS TURBINE BLADES AND DEVICE TO THIS END | 2013 |
|
RU2567764C2 |
