
NM01FC3750
SINGLE ELEMENT CONTACT TRANSDUCERS ( FC ) – FINGER TIP, 0.375", 5 MHz, Dakota NDT
Reach Tight Spots with Precision: Dakota NDT 5 MHz Finger Tip Contact Transducer
Access confined areas and perform detailed ultrasonic inspections with ease using the Dakota NDT Finger Tip Contact Transducer (FC). This ultra-compact single element transducer features a small 0.375" diameter and a focused 5 MHz frequency, making it ideal for applications where space is limited and high resolution is required.
The "Finger Tip" design allows for easy maneuverability in tight corners, on curved surfaces, and around complex geometries where larger transducers simply cannot fit. The 5 MHz frequency provides excellent resolution for detecting small flaws and accurately measuring the thickness of thin materials. As a single element contact transducer, it's designed for direct contact testing, offering a straightforward and reliable method for your inspections.
Built to the high-quality standards of Dakota NDT, this transducer ensures durability and consistent performance for your critical inspections. Its small size doesn't compromise its ability to deliver accurate and reliable ultrasonic testing results.
Key Features:
Ultra-Compact "Finger Tip" Design: The small 0.375" diameter allows access to very tight corners and complex shapes.
Optimized 5 MHz Frequency: Offers a high level of resolution for detecting small flaws and accurately measuring thin materials.
Single Element Contact Design: Ideal for direct contact testing with straightforward application.
Dakota NDT Quality: Ensures durability and consistent performance for reliable inspections.
Versatile Applications: Suitable for a wide range of industries where access is restricted.
Ideal for:
Inspections in confined spaces.
Testing components with complex shapes and geometries.
High-resolution flaw detection in small areas.
Thickness gauging of thin-walled parts.
Get into the tight spots without sacrificing performance. Invest in the Dakota NDT 5 MHz Finger Tip Contact Transducer today.