|  |  |  |  |
| Company | Bettersize Instruments Ltd. | Bettersize Instruments Ltd. | Bettersize Instruments Ltd. | Bettersize Instruments Ltd. |
| Item | BeVision D2 Dynamic Image Analyzer | BeNano 180 Zeta Max Nanoparticle Size and Zeta Potential Analyzer | Bettersizer 2600 - Particle Size Analyzer (Laser Diffraction + Dynamic Imaging) | BeVision S1 Static Image Analyzer |
| Citations | | | | |
| Reviews | | | | |
| Catalog Number | BeVision D2 | BeNano 180 Zeta Max | Bettersizer 2600 | BeVision S1 |
| Price | | | | |
| Description | The BeVision D2 provides an efficient solution to the size and shape analysis of dry, high-flowability powders or granules. Tens of thousands of particles can be measured by a BeVision D2 within three minutes. Combining a high-speed camera with a precise telecentric lens, the BeVision D2 is able to The BeVision D2 provides an efficient solution to the size and shape analysis of dry, high-flowability powders or granules. Tens of thousands of particles can be measured by a BeVision D2 within three minutes. Combining a high-speed camera with a precise telecentric lens, the BeVision D2 is able to efficiently analyze the size and shape of particles in the range of 30 - 10,000 µm.
Features and Benefits - Measurement range: 30 - 10,000 µm
- 24 different particle size and shape parameters
- Reduction of workload and time
- Outstanding reproducibility
- Results in compliance with ISO 9276-6
- Fully automated operation
- Powerful software provides a comprehensive evaluation
- Comparable with sieving results
... Read More | The BeNano 180 Zeta Max is a state-of-the-art nanoparticle analyzer that combines light scattering and transmission techniques. It provides precise measurements of particle size and concentration, zeta potential, molecular weight, refractive index, and rheological properties, all within a single The BeNano 180 Zeta Max is a state-of-the-art nanoparticle analyzer that combines light scattering and transmission techniques. It provides precise measurements of particle size and concentration, zeta potential, molecular weight, refractive index, and rheological properties, all within a single compact system.
Features and Benefits:
- Size range: 0.3 nm - 15 µm
- Minimum sample volume: 3 µL
- DLS backscattering (173°) detection technique
- PALS (Phase Analysis Light Scattering) technique
- Programmable temperature control range from -15°C to 120 °C
- Refractive index measurement
- Concentration measurement
- Sedimentation-based size measurement
... Read More | The Bettersizer 2600 utilizes proven Laser Diffraction Technology to measure particle sizes ranging from 0.02 to 2,600 µm. With its modular design, it seamlessly switches between wet and dry methods, allowing you to get the fast, reliable particle size analysis you need for even complex samples. OurThe Bettersizer 2600 utilizes proven Laser Diffraction Technology to measure particle sizes ranging from 0.02 to 2,600 µm. With its modular design, it seamlessly switches between wet and dry methods, allowing you to get the fast, reliable particle size analysis you need for even complex samples. Our advanced dual-camera imaging module “PIC-1” captures up to 10,000 particles per minute for size and shape analysis, which extends the measurement range to 3,500 µm while delivering real-time insights with industry-leading precision.
Features and Benefits:
- Measurement capabilities: Particle size and shape analysis
- Wide particle size range:
- Wet dispersion: 0.02 to 2,600 µm
- Dry dispersion: 0.1 to 2,600 µm
- Dynamic imaging: 2.0 to 3,500 µm
- Dual optical system: Laser Diffraction and Dynamic Imaging
- Optical bench with 92 detectors covering an angular range of 0.016° - 165°
- Easy and fast to changeover between dispersing modules
- Easy to implement, create and use Standard Operation Procedures for new materials
- Refractive index measurement for providing a more accurate parameter to calculate the results.
- User-friendly software, easily learnt
... Read More | The BeVision S1 combines light microscopy and image analysis, providing intuitive, accurate size and shape distributions of either powder or suspensions. At an objective magnification of up to 100x, even particles as fine as 1 µm can be efficiently analyzed and recorded by the BeVision S1.
The BeVision S1 combines light microscopy and image analysis, providing intuitive, accurate size and shape distributions of either powder or suspensions. At an objective magnification of up to 100x, even particles as fine as 1 µm can be efficiently analyzed and recorded by the BeVision S1.
Features and Benefits: - Measurement range: 1 to 3,000 µm
- 24 different particle size and shape parameters
- Optional models for different applications
- Both dry and wet measurements
- Results in compliance with ISO 9276-6
- A budget-friendly solution for your particle analysis
- Powerful software eases your work
- Customizable reports for different evaluation options
... Read More |
| Type | Inquire | Inquire | Inquire | Independent particle size and shape analyzer |
| Particle Size | 30 to 10,000 µm | 0.3 nm to 15 µm | Wet dispersion: 0.02 to 2,600 µm
Dry dispersion: 0.1 to 2,600 µm
Dynamic imaging: 2.0 to 3,500 µm
| 1 to 3,000 µm |
| Detector(s) | Inquire | Avalanche photodiode (APD) | 92 detectors (forward, lateral and backward arrangements) | Inquire |
| Measuring Time | Inquire | Inquire | Typical measurement time: Less than 10 seconds | 3 to 5 min |
| Light Source | White LED stroboscopic parallel light source | 50 mW Solid-state laser, 671 nm†, Class 1 | Inquire | White light LED, Halogen lamp (optional) |
| Applications | Abrasives, Additive Manufacturing (3D Printing), Agriculture,Food and Beverages, Mining and Minerals,Paints, Inks & Coatings,Pharmaceuticals,Plastic and Resins | Inquire | 3D Printing Materials, Abrasives, Batteries, Building Materials, Ceramics, Cosmetics, Food & Beverage, Mining & Materials, Paints, Inks & Coatings, Pharmaceuticals | Abrasives, Agriculture, Biology and Microorganisms, Ceramics, Metal Powders, Mining & Materials, Paints, Inks & Coatings, Pharmaceuticals |
| Get Quote | | | | |