ROBOTIC THERMAL SPRAY
At Cadorath, thermal spraying technologies can provide thick coatings, ranging from 20 microns to several mm, depending on the feedstock and material being coated. The variations in thickness with thermal coating provides certain advantages over other methods. At Cadorath, combustion or electrical arc discharge is usually used as the energy source. This process is commonly used for metals, alloys, plastics, ceramics and composites.
ADVANTAGES OF ROBOTIC THERMAL SPRAY
- Wide range of thicknesses for a variety of materials.
- Coatings are generally made by the accumulation of numerous applications.
- Provides for extremely precise applications.
- Sprayed materials don’t usually heat up significantly.
ORIGINS AND DEVELOPMENT
Thermal spraying has been around since the early 1880s, when high-tension gases were first created for manufacturing. In the early days, no importance was attributed to the unintentional side-products of the process, which were porous layers.
FUTURE APPLICATIONS
Liquid metal, which was originally the main ingredient in thermal spraying, was eventually replaced by fine metal powder, which continues to this day.
Would you like to learn more about the benefits of robotic thermal spray?
Contact us to talk with an expert.
Call: 204.985.1317
E-mail: [email protected]
OUR METALIZING CAPABILITIES:
| METALIZING | |
| Robotic HVOF | Robotic Plasma Spray |
| Robotic Thermal Spray | Spray and Fuse |
| Dual Wire Arc | Wire Spray |
| Cold Spray | |