Mitech Ultrasonic Flow Detector MFD800C

Rp123

The Mitech Ultrasonic Flow Detector MFD800C is a high-precision, professional-grade instrument designed to detect and analyze material flaws with advanced ultrasonic technology. Engineered for industrial and laboratory applications, the MFD800C combines accuracy, durability, and ease of use to ensure reliable performance. With a compact and portable design, coupled with extensive storage and connectivity options, this device is indispensable for quality control, material testing, and industrial inspection processes.

SKU: MFD800C Category: Tags: , ,

Mitech Ultrasonic Flow Detector MFD800C

The Mitech Ultrasonic Flow Detector MFD800C is a high-precision, professional-grade instrument designed to detect and analyze material flaws with advanced ultrasonic technology. Engineered for industrial and laboratory applications, the MFD800C combines accuracy, durability, and ease of use to ensure reliable performance. With a compact and portable design, coupled with extensive storage and connectivity options, this device is indispensable for quality control, material testing, and industrial inspection processes.

Features

  • Wide Measuring Range: Measures from 0 to 9999 mm at steel velocity, accommodating various materials and applications.
  • Exceptional Accuracy:
    • Horizontal Accuracy: ±0.2% FSW
    • Vertical Accuracy: 0.25% FSH
    • Amplifier Accuracy: ±1 dB for detailed flaw detection.
  • Large Storage Capacity:
    • Supports 1000 groups of flaw detection parameter channels.
    • Stores up to 100 recorded data points for efficient data management.
  • USB Connectivity: USB 2.0 interface enables seamless data transfer and easy integration with analysis software.
  • Extended Working Time: Operates for more than 8 hours on a single charge, making it ideal for prolonged inspections.
  • Lightweight and Portable: Main unit weighs only 1.8 kg, designed for convenient field and laboratory use.
  • Durable Construction: Built to withstand demanding industrial environments and rigorous usage.
  • Compact Design: Dimensions of 280 x 220 x 70 mm ensure easy handling and storage.

Applications

The Mitech Ultrasonic Flow Detector MFD800C is suitable for:

  • Quality Control: Ensuring material integrity during production processes.
  • Industrial Inspection: Detecting flaws in pipelines, machinery components, and welded structures.
  • Material Testing: Evaluating internal structures of metals and other materials.
  • Research and Development: Supporting innovation and material analysis in scientific fields.
  • Field Applications: Portable design makes it ideal for on-site testing and inspections.

Technical Specifications

Parameter Details
Brand Mitech
Model MFD800C
Measuring Range 0-9999 mm at steel velocity
Resolution Accuracy Horizontal: ±0.2% FSW; Vertical: 0.25% FSH; Amplifier Accuracy: ±1 dB
Communication USB 2.0 interface
Storage Capacity 1000 flaw detection parameter channels; 100 data points
Battery Life More than 8 hours
Main Unit Weight 1.8 kg
Main Unit Dimensions 280 x 220 x 70 mm
Package Dimensions 44.5 x 37 x 14 cm
Total Weight 5.5 kg

Why Choose Mitech Ultrasonic Flow Detector MFD800C?

  • Precision and Accuracy: Provides detailed and reliable flaw detection results.
  • Advanced Data Management: USB connectivity and large storage capacity for streamlined data analysis and reporting.
  • Portable and User-Friendly: Lightweight design and intuitive operation for ease of use in various environments.
  • Durable and Reliable: Designed to perform in tough industrial conditions while maintaining consistent accuracy.
  • Versatile Applications: Suitable for a wide range of industries, including construction, manufacturing, and research.

The Mitech Ultrasonic Flow Detector MFD800C delivers unmatched precision and reliability, making it an essential tool for professionals in quality assurance, material testing, and industrial inspections.

Reviews

There are no reviews yet.

Be the first to review “Mitech Ultrasonic Flow Detector MFD800C”

Your email address will not be published. Required fields are marked *