Application note: Non-destructive Testing on Gear Teeth
In this application grinding burn was detected on gear flanks with automated GearScan 500 Barkhausen noise system.
In this application grinding burn was detected on gear flanks with automated GearScan 500 Barkhausen noise system.
In this application robotized X-ray diffraction was used to measure the planar principal stress on parts manufactured using the additive manufacturing technique.
Staying competitive means resource-efficient lightweight construction, intelligent selection of materials, and appropriate heat management and manufacturing technology.
In this application grinding temper on a crankshaft fillet radius was measured with Bakhausen noise method as an alternative to nital etch.
In this application X-ray diffraction was used to measure line profiles of surface residual stress across sample weld zones on aerospace materials.
In this application residual stresses on ground camshaft lobes were measured with Barkhausen noise and X-ray diffraction methods.
In this application, gear teeth were checked for grinding re-temper burn after a gearbox manufacturer uncovered a failed tooth.
In this application Barkhausen noise testing measures the ferro-magnetic steel substrate through the coating on landing gear piston.
In this application camshaft lobes were inspected for soft spots (heat treatment defect) with non-destructive barkhausen noise method.
In this application, gear teeth were checked for grinding burn as a result of unbalanced cycle time changes.