Litcius/Paper detail

Study of Low-Pressure Cold Spray Additive Manufacturing: Investigation of Kinematic Spray Parameters on Deposition and Properties

Wenbo Li, Hongjian Wu, Christophe Verdy, S. Costil, Hanlin Liao, Sihao Deng

20223D Printing and Additive Manufacturing10 citationsDOIOpen Access PDF

Abstract

Low-pressure cold spray (LPCS) has broadened the application field of cold spray owing to its portability and low cost. For additive manufacturing (AM) based on LPCS (LPCSAM), it is important to investigate the effects of parameters such as temperature and pressure of the gas, stand-off distance, gun traverse speed, and the number of scanning passes of the gun on the deposition and properties. This study aims to determine the optimal kinematic spray parameters for spraying Cu+Al 2 O 3 powder onto an aluminum substrate through LPCS, so as to prepare for the next AM work. The deposition mass, deposition rate, microhardness, and roughness under different spraying conditions were studied. The best spraying effect, with a high deposition rate and without nozzle clogging, was obtained at a nitrogen pressure of 0.9 MPa and a temperature of 400°C.

Topics & Concepts

Deposition (geology)NozzleGas dynamic cold sprayMaterials scienceSpray nozzleIndentation hardnessComposite materialMetallurgyMechanical engineeringSedimentPaleontologyCoatingMicrostructureEngineeringBiologyHigh-Temperature Coating BehaviorsAdvanced ceramic materials synthesisFluid Dynamics and Heat Transfer