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Overview
Dry Laser Particle Size Analyzer LMDLA-A101 offers measurement range of 0.1 to 800 µm. Its computer-controlled operation and active feeding ensure reliable sample handling and repeatable results. Its advanced optical setup with automated path calibration delivers stable performance across diverse particle ranges. It features dual detector system with 96-channel parallel acquisition for full-range detection. Our Dry Laser Particle Size Analyzer is ideal for analyzing pharmaceuticals, cosmetics, and ink formulations.
Features :
Fiber-output laser
Oil-free silent air compressor
Cold dryer
Misoperation protection
Residue-Free Operation
Dustproof, shockproof construction
Specifications :
| Measurement Range | 0.1 to 800 µm |
| Detector Channels | 120 |
| Testing Speed | Less than 1 minute per test (excluding dispersion) |
| Accuracy Error | Lesser than 1% |
| Repeatability Error | Lesser than 1% |
| Dispersion Method | High pressure air dispersion |
| Optical Calibration Time | Less than or equal to 15 seconds |
| Minimum Step Distance | 0.2 µm |
| Laser Wavelength | 650 nm |
| Laser Power | Greater than 15 mW |
| Dimensions | 700×495×300mm |
| Weight | 35 kg |
Applications :
Dry Laser Particle Size Analyzer LMDLA-A101 is ideal for pharmaceuticals, chemicals, abrasives, catalysts, metallurgy, and graphite-based materials for analyzing powder consistency, flow properties, and processing behaviour.
Selection Guide :
Dry Laser Particle Size Analyzer LMDLA-A101 is a high-precision instrument designed for measuring dry powders and particulate materials without the need for liquid dispersion. Based on research studies, this analyzer is widely used in industries such as pharmaceuticals, cement, mining, ceramics, chemicals, and food, particularly where dry sample analysis is essential to preserve sample integrity or avoid contamination from dispersion liquids. It is suitable for R&D labs, quality control, and production environments where quick and accurate size distribution is required. This model is suited for experiments involving aerosols, powders, and other fine particulate materials. It typically complies with ISO 13320 standards, ensuring repeatability, accuracy, and international quality compliance. When selecting this model, customers should consider its ability to provide a broad measurement range, fast testing time (typically under a minute), high-resolution detectors, and minimal sample preparation, all of which support efficient and reliable particle characterization across a wide range of dry materials.