Effect of abrasive water jet peening on NaCl-induced hot corrosion behavior of Ti-6Al-4V

Hot corrosion studies were performed on pristine and abrasive water jet peened (AWJP) Ti-6Al-4V surfaces. Oxide scales form on the peened and pristine surfaces when coated with NaCl and exposed to 600 degrees C for 100 h. Despite similar oxide compositions on both surfaces, the thickness and roughness of the oxide scale on the AWJ peened surface is lower. The hot corrosion rate of the pristine surface is 2.5 times higher than that on the AWJ peened surface. Enhanced hot corrosion resistance of the latter is attributed to compressive residual stresses on the surface that retards diffusion of chloride in the material.

Automated summary

Hot corrosion studies were conducted on pristine and abrasive water jet peened (AWJP) Ti-6Al-4V surfaces. Both surfaces developed oxide scales when coated with NaCl and exposed to 600 degrees C for 100 h, but the oxide scale on the AWJ peened surface had lower thickness and roughness. The hot corrosion rate on the pristine surface was 2.5 times higher compared to the AWJ peened surface. The improved hot corrosion resistance of the latter can be attributed to compressive residual stresses on the surface, which hinder chloride diffusion in the material.