Comprehensive analysis of shielding gas flow rate effects on geometric optimization, microstructural evolution, and gas porosity formation in single-pass laser cladding of IN625 on René 125 turbine blade | Synapse
March 3, 2026
Comprehensive analysis of shielding gas flow rate effects on geometric optimization, microstructural evolution, and gas porosity formation in single-pass laser cladding of IN625 on René 125 turbine blade
Puntos clave
Gas porosity formation decreases with increased shielding gas flow rate—improving material properties.
Geometric optimization allows for enhanced surface integrity and overall performance in turbine blades.
Analysis of microstructural evolution shows clear relationships to adjustments in laser cladding parameters.
Insights from this study may drive advancements in turbine blade manufacturing efficiency.