Description: Thermal spray coating methods utilize fuel combustion, plasma spray and electric arc delivery systems. Coatings can be applied under standard atmospheric conditions or in specialized, highly controlled atmospheric environments. Coatings can be applied manually or with the automated precision of software-driven robotics. Many industries use our thermal spray coatings to extend product life, increase service performance and reduce production and maintenance costs. Thermal spray coatings can be the most cost-effective means of protecting substrate surfaces from wear or corrosion. Other primary uses of thermally sprayed coatings include dimensional restoration, maintaining precise clearances, and modifying thermal and electrical properties. A common feature of all thermal spray coatings is their lenticular or lamellar grain structure resulting from the rapid solidification of small globules, flattened from striking a cold surface at high velocities. In the simplest terms possible, thermal spray coating involves heating a material, in powder or wire form, to a molten or semi-molten state. These coatings are widely used in textile industry, paper, pulp & printing machineries, chemical & petrochemicals, power station, hydraulic machineries, oil & natural gas industries, diesel engines / road transport and steel mills. These coatings are provided with corrosion resistance.
