Abstract:Adopting scanning electron microscopy (SEM), X-ray diffraction (XRD), energy dispersive spectrometer (EDS) and tensile machine and hardness tester, the morphologies, phase constitutions and mechanical properties of Al-12Si coatings by supersonic particles deposition (SPD) at different hydrogen flow rates were detected, and the effect of the flow rate of hydrogen, which was treated as minor-fuel and reductive gas in the process of coating, on the structure and properties was studied. The results demonstrate that increasing the hydrogen flow rate can increase the velocity and deposition rate of the particles remarkably. The coating reaches the largest thickness and porosity when the hydrogen flow rate is 30 L/min, and the thickness and porosity tend to decrease with increasing hydrogen flow rate. The coating is composed of α(Al) phase and Al-Si eutectic phase, and the content of oxygen decreases with increasing the hydrogen flow rate, but oxidation phase is not discovered. The bonding strength is beyond 34 MPa, and the hardness of coating is twice more of substrate. The bonding strength and hardness increase with increasing the hydrogen flow rate, which can enhance the wear resistance of substrate notably.

Key words: Al-Si coating; H₂; supersonic particles deposition; flow rate; coating properties