Figure 1: Surface of a plane
Discover how surface eddy current array (ECA) — a non-destructive testing (NDT) method typically used for crack detection — is also highly effective for corrosion mapping, even in cases where traditional methods struggle.
ECA works on both ferrous and non-ferrous surfaces, detecting extremely small corrosion pits. It can be 10–100× faster than penetrant testing (PT) while reducing dependence on operator skills.
Through three inspection scenarios, see how ECA outperforms other techniques when efficiency, accuracy, and versatility matter most. Click here.
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Figure 2: Nuclear cooling towers
Next-generation large rotor shafts—such as those used in modern nuclear power plants—present new challenges for non-destructive testing (NDT) because of their size and complexity. Traditional ultrasonic testing (UT) probes often struggle with limited signal-to-noise ratio (SNR) and reduced effectiveness over long sound paths.
Discover how you can tacke those challenges with a superior solution for massive forged rotor inspections. Click here.
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Figure 3: Operators inspecting boiler's tubes
Phased array ultrasonic testing (PAUT) can significantly improve boiler tube weld inspections by offering a faster, safer, and more detailed alternative to traditional radiographic testing (RT). RT has limitations such as poor sensitivity to planar defects, delayed feedback, and safety concerns from radiation exposure. PAUT, on the other hand, delivers immediate results and enhanced defect detection without disrupting other work activities.
Discover what you need to tackle common challenges like tight pipe clearances, thin walls, and variable diameters inside boilers here.
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