Process Optimization of Polishing Titanium Alloy Material with a Pulsating Air Jet

Titanium alloy is a widely used metal material, which can be applied in fields such as healthcare, petroleum exploration, aerospace, etc. In this paper, a new method for polishing the titanium alloy by a pulsating air jet is proposed. Compared with traditional abrasive jet polishing, this method has the advantages of simple structure, low nozzle wear, and high polishing flexibility. The working principle and material removal mechanism of the pulsating air jet polishing (PAJP) are introduced. Combined with orthogonal experiments, range analysis and variance analysis were used to find out the influence degree of each process parameter on the PAJP of titanium alloy, and the optimal level of each parameter was found. Through the experiments, a prediction model of surface roughness was established by regression analysis, and the predicted value was compared with the measured value. The maximum relative error of the prediction model was 10.3%, and the minimum relative error was 1.1%. The average relative error was 6.2%.

Automated summary

This paper proposes a new method for polishing titanium alloy using a pulsating air jet and introduces its working principle and material removal mechanism. By conducting orthogonal experiments, the influence degree of each process parameter on the polishing of titanium alloy is determined, and a prediction model of surface roughness is established.