maximum thickness for ultrasonic testing

Nonlinear ultrasound has been proven to be a useful nondestructive testing tool for micro-damage inspection of materials and structures operating in harsh environment. When measuring the nonlinear second harmonic wave in a solid specimen in the pulse–echo (PE) testing mode, the stress-free boundary characteristics brings the received second harmonic component close to zero. Therefore ...

F/NF Coating Thickness Gauge TIME®2510E-Digital Coating Thickness Gauge TIME®2510E adopts two thickness-measuring methods: magnetic induction (ferrous) and eddy current (non-ferrous). It can rapidly, nondestructively, and precisely measure the thickness of non-magnetic coating on magnetic metal substrate, and the thickness of non-conductive coating on non-magnetic metal substrate.

F/NF Coating Thickness Gauge TIME®2510E-Digital Coating Thickness Gauge TIME®2510E adopts two thickness-measuring methods: magnetic induction (ferrous) and eddy current (non-ferrous). It can rapidly, nondestructively, and precisely measure the thickness of non-magnetic coating on magnetic metal substrate, and the thickness of non-conductive coating on non-magnetic metal substrate.

Nonlinear ultrasound has been proven to be a useful nondestructive testing tool for micro-damage inspection of materials and structures operating in harsh environment. When measuring the nonlinear second harmonic wave in a solid specimen in the pulse–echo (PE) testing mode, the stress-free boundary characteristics brings the received second harmonic component close to zero. Therefore ...