Laser Diffraction Particle Size Analyzer, 0.1μm~2000μm

ATO laser diffraction particle size analyzer can analyze large particles of powder and dust. It uses a highly stable, high-power fiber output laser. The excellent configuration gives it super stability. The fully enclosed design ensures that the particle size analyzer can be tested in complex environments for a long time.

Specification

• Model: ATO-BOS2020-H
• Measuring Range: 0.1μm~2000μm
• Number of Detector Channels: 108
• Accuracy Error: <1%
• Repeatability Error: <1%
• Feeding Method: Mechanical stepless speed-adjustable vibration feeding, software control
• Oil-Free Silent Air Compressor: With dust filtering function to ensure test accuracy
• Freeze Dryer: Filter moisture in the air to ensure the dispersion effect
• Misoperation protection: Prepare for misoperation self-protection function and will not respond to misoperation
• Laser Parameters: Imported fiber output high-power laser λ= 650nm, p>10mW
• Dispersion Method: High-pressure air turbulence dispersion
• Operation Mode: Software fully automatic operation
• Optical Path Alignment: Automatic optical path calibration
• Test Speed: <1min/time (Excluding sample dispersion time)
• Dimension: 980mm*410mm*450mm
• Weight: 35Kg

Software Function

• Analysis Modes: Including free distribution, R-R distribution, lognormal distribution, classification statistical mode by mesh, etc., to meet the requirements of different industries for the particle size statistics of the tested samples.
• Statistical Method: Volume distribution and quantity distribution to meet the different statistical methods of particle size distribution in different industries.
• Statistical Comparison: Statistical comparative analysis can be performed on multiple test results, and the differences in test results between different batches of samples, samples before and after processing, and at different times can be clearly compared, which has strong practical significance for quality control of industrial raw materials.
• DIY Template: Users can customize the data to be displayed, calculate the percentage based on particle size, calculate the particle size based on the percentage, or calculate the percentage based on the particle size interval to meet the characterization methods of particle size testing in different industries. Distance, consistency, interval accumulation, etc.
• Test Report: The test report can be exported to various forms of documents such as Word, Excel, Pictures (Bmp), and Text, allowing you to view test reports on any occasion and quote test results in scientific research articles.
• Multi-language Support: Chinese and English language interface support, other language interfaces can also be embedded according to user requirements.
• Intelligent Operation Mode: truly fully automatic operation without human intervention, without interference from human factors. You only need to follow the prompts to add the sample to be tested, and the repeatability of the test results is better.

Particle Size Analyzer Workflow Diagram

Dry Inspection

Air is used as the dispersion medium, and the high-precision feeding device and powder injection pump are used to ensure that the sample is fully dispersed. Suitable for testing dry powder materials, especially powders that are prone to chemical reactions with water and easy to change shape in liquids.

Tips: Laser diffraction particle size analyzer applications

Laser diffraction particle size analyzers are versatile instruments used in various industries to measure and analyze the size distribution of particles in a sample. These applications can be broadly categorized into fields like pharmaceuticals, food and beverages, environmental science, materials science, and more.

In the pharmaceutical industry, particle size analysis ensures the quality and efficacy of drugs, aiding in drug formulation and delivery. It is crucial for optimizing drug dissolution rates, stability, and bioavailability.

In the food and beverage sector, it helps maintain product consistency and quality by assessing ingredients, emulsions, and suspensions. Particle size analysis plays a role in developing new food products and enhancing the texture of existing ones.

Environmental scientists employ particle size analyzers to monitor air and water pollution, understanding the sources and effects of particulate matter. In materials science, these analyzers are essential for characterizing powders, nanoparticles, and composites, enabling the design and improvement of advanced materials.

Laser diffraction particle size analyzers serve a critical role in multiple industries by providing data essential for quality control, research, and development. Their applications are diverse, from ensuring drug effectiveness to enhancing food products and addressing environmental concerns, making them indispensable tools for a wide range of scientific and industrial processes.