BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer

BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer 1 - 10,000 µm

BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer

• BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer is an automated image analysis system designed specifically for the cleanliness analysis of particulate matter on filters.
• BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer employs a metallurgical microscope, a programmable motorized stage, auto-focus capabilities, and a high-resolution CMOS sensor.
• BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer can capture and identify individual particles, seamlessly stitching the images together to create a comprehensive overview.

Key Features and Advantages of the BeVision M1 Image Scanning Particle Size and Particle Shape Analyzer:

• Measurement range: 1 to 10,000 µm
• Compliant with ISO 9276-6 standards
• Ensures highly reproducible measurements
• Utilizes a high-speed CCD camera
• Equipped with user-friendly software
• Features an automatic sample stage with high positional accuracy
• Provides 24 distinct particle size and shape parameters
• Plays a crucial role in surface cleanliness assessments

The Advantages of Image Analysis:

• Simplicity: The process involves capturing an image of the particles, identifying them, and then measuring their size and shape. Each step in image analysis is straightforward and easily understandable.
• Shape Analysis: The direct visualization of particles allows for the analysis of both particle size and shape.
• Visual Verification: The image analysis method determines the size and shape of each individual particle and then aggregates this data to generate statistics. This provides precise details about particle size or shape distribution.

The Advantages of Static Image Analysis:

• Clarity: Static image analyzers utilize precision microscopes and high-resolution cameras specifically designed for capturing high-quality particle images.
• Sensitivity to Undersized Particles: The static image analysis method is highly sensitive to particles smaller than the specified size, and it can even estimate the size of these undersized particles.
• Small Sample Volume Requirement: The static image analysis method only necessitates a small sample volume. A few drops of emulsions or a few micrograms of powders are sufficient for conducting a measurement.