BeVision M1
Image Scanning Particle Size & Shape Analyzer
The BeVision M1 is an advanced, fully automated static image scanning particle size and shape analyzer designed for detailed characterization and cleanliness inspection of particles across a very wide size range. It integrates a high-resolution optical imaging system with a motorized scanning stage and intelligent software, delivering comprehensive particle analysis for research, quality control, contamination checks and surface inspection workflows.
Overview & Operating Principle
The BeVision M1 captures high-quality images of particles through an automated scanning process, where a precision stage moves the sample while the system continuously captures and stitches images into a panoramic view. This approach allows the instrument to measure both particle size and particle morphology with precision, offering a clear visual representation as well as rich numerical data.
The built-in software automatically recognizes each particle in the scanned area and calculates multiple parameters related to particle dimensions and shape characteristics.
Key Features & Benefits
Wide Measurement Range
• Measures particles from very fine sizes up to large particulates, covering an extensive size range ideal for diverse sample types.
Automated Scanning & Panoramic Imaging
• The BeVision M1’s motorized sample stage scans the area automatically, capturing a tiled series of images.
• The instrument’s software stitches these individual frames into a high-resolution panorama, allowing analysis of
thousands of particles in a single measurement pass.
• This system reduces manual operation and increases throughput while preserving statistical accuracy.
High-Quality Optical System
• Equipped with a metallurgical microscope and a high-resolution CMOS/CCD imaging sensor, the BeVision M1 ensures sharp and detailed particle images.
• Intelligent auto-focusing delivers well-defined particle contours throughout the scanning area.
Comprehensive Particle Analysis
• Provides size and shape distribution statistics with dozens of distinct measurement parameters.
• Measures particle count, size distributions, and multiple shape descriptors for deep insight into morphology.
• Customizable reporting options allow clear data presentation for QC, R&D, or compliance documentation.
Standards-Compliant Results
• Measurement outputs are delivered in accordance with recognized particle analysis standards, ensuring consistent and defensible data.
Efficient Workflow & Software
• Automated scanning and analysis minimizes operator input and allows real-time feedback during measurement.
• Powerful software facilitates easy setup, SOP control, visualization, export, and reporting.
Technical Highlights
Measurement Principle: Static image scanning
Particle Size Range: Suitable for very small to large particles
Optical System: High-resolution imaging with motorized stage
Scanning Mode: Automated panoramic scan
Image Capture: High-resolution CMOS/CCD camera
Particle Parameters: Multi-parameter size and shape analysis
Software Output: Customizable results and graphical reports
Compliance: Standardized statistical output
Note: Final performance may vary based on configuration, optics selected, and sample preparation setup.
Typical Applications
The BeVision M1 is ideal for many particle analysis and surface inspection tasks across industrial and scientific domains, such as:
• Surface cleanliness evaluation and contamination control
• Filter inspection and particle distribution mapping
• Powder and particulate analysis for quality assurance
• Film and coating defect detection
• Materials research and characterization
• Manufacturing process control (e.g., automotive, aerospace, electronics)
Why Choose the BeVision M1
The BeVision M1 stands out as a comprehensive and automated solution for particle size and shape analysis. Its panoramic imaging capabilities, precision optics, and powerful automated scanning deliver rich quantitative data along with visual particle evidence — making it a robust choice for laboratories demanding both quality results and operational efficiency.
