NM01T50431855
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The Dakota Ultrasonics FCR5025T is a high-quality, non-magnetic, single-element contact transducer designed for versatile ultrasonic testing applications, particularly in the inspection of metal fasteners. This transducer is engineered to provide reliable and accurate flaw detection and thickness gauging, even in environments where magnetic interference is a concern.
Key Features and Benefits:
Non-Magnetic Design:
Constructed with non-magnetic materials, eliminating the risk of magnetic interference and ensuring accurate measurements in magnetically sensitive environments.
Single Element Transducer:
Utilizes a single crystal for both transmitting and receiving ultrasonic waves, simplifying operation and providing reliable performance.
Contact Transducer:
Designed for direct contact with the test material, requiring a suitable couplant to ensure efficient ultrasonic wave transmission.
1/2 Inch Diameter:
The 1/2-inch crystal diameter provides a suitable contact area for various inspection tasks, offering a balance between sensitivity and resolution.
2.25 MHz Frequency:
Operates at a frequency of 2.25 MHz, offering excellent penetration capabilities for inspecting thicker materials and providing robust flaw detection.
Microdot Connector:
Equipped with a Microdot connector, a standard and reliable connection type in ultrasonic testing, ensuring secure and consistent signal transmission.
Top Entry Connector:
The top entry connector design provides convenient cable routing and allows for easy access in confined spaces.
Versatile Material Compatibility:
Suitable for inspecting all metal fastener material types, providing flexibility for various inspection needs.
Dakota Ultrasonics Quality:
Manufactured by Dakota Ultrasonics, a reputable provider of ultrasonic testing equipment, ensuring high quality and reliability.
Applications:
Inspection of metal fasteners in various industries.
Thickness gauging of metal components.
Flaw detection in welds, castings, and forgings.
General-purpose ultrasonic testing applications in environments with magnetic interference.