3D Metrology Services – Aerospace – Turbine Blade Inspection
Demand for increasingly complex turbine blades, including airfoil, root geometries, and shaped cooling holes with tighter tolerances and accuracies, has risen due to improved engine performance levels and efficiencies required in the new generation of aero-engines and land-based gas turbine engines. Our 3D Metrology services use advanced 3D scanning and measurement technologies to inspect both straight and shaped cooling holes, leading edge surface roughness, blade root geometry, airfoil characteristics and for detection of surface defects to improve blade performance.
The 3D measurements shown below were completed using our MVi5 3D Metrology Center for automated inspection of the turbine blade components.
Watch the cooling hole inspection process video here.
Demand for increasingly complex turbine blades, including airfoil, root geometries, and shaped cooling holes with tighter tolerances and accuracies, has risen due to improved engine performance levels and efficiencies required in the new generation of aero-engines and land-based gas turbine engines. Our 3D Metrology services use advanced 3D scanning and measurement technologies to inspect both straight and shaped cooling holes, leading edge surface roughness, blade root geometry, airfoil characteristics and for detection of surface defects to improve blade performance.
The 3D measurements shown below were completed using our MVi5 3D Metrology Center for automated inspection of the turbine blade components.
Watch the cooling hole inspection process video here.
Leading Edge Surface Roughness Inspection
Demand for increasingly complex turbine blades, including airfoil, root geometries, and shaped cooling holes with tighter tolerances and accuracies, has risen due to improved engine performance levels and efficiencies required in the new generation of aero-engines and land-based gas turbine engines. Our 3D Metrology services use advanced 3D scanning and measurement technologies to inspect both straight and shaped cooling holes, leading edge surface roughness, blade root geometry, airfoil characteristics and for detection of surface defects to improve blade performance.
The 3D measurements shown below were completed using our MVi5 3D Metrology Center for automated inspection of the turbine blade components.
Watch the cooling hole inspection process video here.
Blade Root Geometry Inspection
Demand for increasingly complex turbine blades, including airfoil, root geometries, and shaped cooling holes with tighter tolerances and accuracies, has risen due to improved engine performance levels and efficiencies required in the new generation of aero-engines and land-based gas turbine engines. Our 3D Metrology services use advanced 3D scanning and measurement technologies to inspect both straight and shaped cooling holes, leading edge surface roughness, blade root geometry, airfoil characteristics and for detection of surface defects to improve blade performance.
The 3D measurements shown below were completed using our MVi5 3D Metrology Center for automated inspection of the turbine blade components.
Watch the cooling hole inspection process video here.
Blade Airfoil Characteristic Inspection
Demand for increasingly complex turbine blades, including airfoil, root geometries, and shaped cooling holes with tighter tolerances and accuracies, has risen due to improved engine performance levels and efficiencies required in the new generation of aero-engines and land-based gas turbine engines. Our 3D Metrology services use advanced 3D scanning and measurement technologies to inspect both straight and shaped cooling holes, leading edge surface roughness, blade root geometry, airfoil characteristics and for detection of surface defects to improve blade performance.
The 3D measurements shown below were completed using our MVi5 3D Metrology Center for automated inspection of the turbine blade components.
Watch the cooling hole inspection process video here.
Detection of Blade Surface Defects
Demand for increasingly complex turbine blades, including airfoil, root geometries, and shaped cooling holes with tighter tolerances and accuracies, has risen due to improved engine performance levels and efficiencies required in the new generation of aero-engines and land-based gas turbine engines. Our 3D Metrology services use advanced 3D scanning and measurement technologies to inspect both straight and shaped cooling holes, leading edge surface roughness, blade root geometry, airfoil characteristics and for detection of surface defects to improve blade performance.
The 3D measurements shown below were completed using our MVi5 3D Metrology Center for automated inspection of the turbine blade components.
Watch the cooling hole inspection process video here.