Abstract
Cold spray technology using micron-sized particles to produce coatings is increasingly used for reparative tasks in various industries. In a cold spray setup, the gun is usually connected to a robotic arm to deposit coatings on components with complex geometries. For these components, the standoff distance used in the cold spray process has to be large enough for easy maneuverability of the gun around a small radial feature. However, a small standoff distance is commonly found in most studies, which is thought to prevent a velocity drop of the particles over a larger distance. Here, a study was carried out by measuring the Inconel 625 particle velocity at different spray distances, ranging from 3 to 40 cm. The highest average velocity of 781 m/s was found at a spray distance of 8 cm. Furthermore, a study with varying powder feed rates was also conducted. An increase in the powder feed rate was found to have a minimal effect on the particle velocity. Inconel 625 coatings deposited at the optimum standoff distance (8 cm) were found to have low porosity and high hardness. The results in this study demonstrate that a larger standoff distance can be applied without a significant drop in velocity for cold spray applications requiring high maneuverability.
Highlights
Academic Editor: Pasquale CavaliereCold spray is a solid-state deposition technology capable of repairing metallic components
The main cold spray application setup normally consists of the cold spray gun attached to a robotic arm
Spray distances of 3, 6, 8, 10, 12, 20, 30, and 40 cm were chosen for velocity measurement, and the measurement results are shown in Simulated particle and critical velocity were included in Figure 2a to observe and compare the trends
Summary
Cold spray is a solid-state deposition technology capable of repairing metallic components. The main cold spray application setup normally consists of the cold spray gun attached to a robotic arm This is to allow repair jobs to be performed on components with complex geometries by moving the robotic arm in a programmed path. Complex geometries with small radial features pose a great challenge for the cold spray gun maneuverability since the cold spray gun nozzle is normally bulky, being tens of millimeters in size. To overcome this challenge, it is practical to increase the standoff distance between the damaged part and the gun nozzle. Studies on particle velocity at larger spray distances are still lacking
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