NM01T50251845
The Dakota Ultrasonics 1/4", 2.25 MHz Single Element Contact Transducer is a versatile probe designed for a range of ultrasonic testing applications. Featuring a 1/4 inch diameter active element, this transducer operates at a frequency of 2.25 MHz, offering a good balance between penetration capability and resolution for various materials and thicknesses.
The "TI, MIC" likely refers to the connector type: Microdot. The "QK.CHG. SW" indicates that this is a Quick Change Shear Wave transducer, designed for rapid interchangeability with wedges for shear wave inspection. The "W/GAI" likely signifies "with gauge interface," indicating compatibility with Dakota Ultrasonics thickness gauges or flaw detectors.
Key Features:
Single Element Contact Probe: Standard design for direct contact ultrasonic testing.
Frequency: 2.25 MHz - Offers a balance of penetration and resolution for various materials.
Diameter: 1/4 inch (0.250") - Compact size for localized measurements and access to tight spaces.
Connector: Microdot (MIC) with Quick Change (QK.CHG. SW) capability for shear wave wedges.
Gauge Interface (W/GAI): Compatible with Dakota Ultrasonics thickness gauges or flaw detectors.
Manufacturer: Dakota Ultrasonics - A reputable manufacturer of ultrasonic testing equipment.
Benefits:
Versatile Measurement Capabilities: Suitable for a broad range of materials and thicknesses.
Good Balance of Penetration and Resolution: The 2.25 MHz frequency offers a compromise for various applications.
Quick Change for Shear Wave Inspection: Designed for rapid interchange with shear wave wedges when needed.
Compact Size: Enables testing in areas with limited access.
Reliable Performance: Dakota Ultrasonics is known for producing quality transducers.
Gauge Compatibility: Designed to interface with Dakota Ultrasonics instruments.
Applications:
General thickness measurement of various materials.
Flaw detection in a range of materials using both straight beam and shear wave techniques (with appropriate wedge).
Corrosion surveys.
Inspection of components with limited access.