Electromagnetic Ultrasonic Thickness Gauge

The applications of electromagnetic ultrasound primarily include thickness measurement, flaw detection, and stress testing.

Employ electromagnetic ultrasonic technology for detecting and collecting data on high-temperature pipelines without removing the insulation, and ultrasonic thickness gauges without couplant are quoted. On-site detection is conducted based on initial thickness measurements and overhaul thickness measurements of the high-temperature pipelines.

And the use of electromagnetic ultrasonic technology can also be employed for stress measurement, with advantages including:

Dry coupling, non-contact detection. Highly reliable and repeatable detection can be achieved without any coupling agent.

Waterproof surface condition. The material can be coated, metal shell electromagnetic ultrasonic thickness gauge pricing, or operate in rough/dirty conditions, thereby eliminating the need for adjustment during measurement.

The probe is easy to deploy. The sound generated by the component is directional independent of the sensor's placement angle, making it convenient for detection and integration.

Electromagnetic Ultrasonic Thickness Gauge

HG-E90 Electromagnetic Ultrasonic High-Temperature Thickness Gauge for accurate thickness measurement, Electromagnetic Ultrasonic Thickness Gauge Pricing, no need for coupling, can penetrate coatings

The instrument features both A-scan and B-scan capabilities, supported by specialized algorithm programs, ensuring accurate measurement results. It does not require coupling agent or surface polishing of the workpiece, and allows for painted, coated, or uneven surfaces to be inspected.

Built-in infrared sensor for direct measurement of material surface temperature:

An infrared non-contact temperature sensor MLX90614 is built-in. The TO-39 metal package integrates both an infrared thermopile detector chip and a dedicated signal processing integrated chip. With the incorporation of a low-noise amplifier, a 17-bit analog-to-digital converter, and a powerful digital signal processing unit, a thermometer with high precision and high resolution is achieved.

Eddy Current Ultrasonic Thickness Gauge

The number of channels and probes used is minimal.

Under the same functional requirements, the EMAT flaw detection equipment uses fewer channels and probes than piezoelectric ultrasonic.

Especially so in the case of EMAT flaw detection equipment for sheet materials, piezoelectric ultrasonic inspection requires dozens of channels and probes to scan the surface, whereas EMAT only needs four channels and the corresponding number of probes.

Strong capability to detect natural defects; EMAT can accurately identify defects such as folds, double skins, and holes on steel pipe surfaces that are difficult to detect.

Beijing Han Gu Precision - Non-contact Electromagnetic Ultrasonic Thickness Gauge Pricing Provided by Beijing Han Gu Precision Instrument Co., Ltd. Beijing Han Gu Precision Instrument Co., Ltd. is a witness to the instrumentation, components, and equipment industry in Changping District, Beijing. For many years, the company has implemented scientific management, innovative development, and honest credibility to meet customer needs. Beijing Han Gu's leadership and all staff warmly welcome inquiries and negotiations from all sectors, striving to create a brighter future for Beijing Han Gu.