Unlike "blind" technologies like laser diffraction, the SolidSizer allows operators to visually verify every measurement through recorded video data. Key Performance Specifications
Features auto-calibration and auto-focusing to ensure repeatable results across different operators. Industry Applications jm canty labplus solidsizer
In the fields of chemical engineering, pharmaceuticals, and materials science, the size and shape of particles are critical parameters that directly influence product quality, flowability, dissolution rates, and stability. Traditional methods of particle sizing, such as sieving or laser diffraction, often provide only a volumetric equivalent diameter, neglecting the crucial morphological aspects of a sample. The addresses this gap by offering a high-resolution, image-based analysis system that combines robust suspension technology with advanced visual software, positioning itself as an essential tool for modern particle characterization. Traditional methods of particle sizing, such as sieving
The is a high-speed, vision-based particle analysis system designed to replace traditional sieve analysis in laboratory environments. By leveraging dynamic imaging technology, it provides real-time data on particle size, shape, and distribution with a level of detail that mechanical sieving cannot match. Core Functionality and Technology By leveraging dynamic imaging technology
Unlike "blind" technologies like laser diffraction, the SolidSizer allows operators to visually verify every measurement through recorded video data. Key Performance Specifications
Features auto-calibration and auto-focusing to ensure repeatable results across different operators. Industry Applications
In the fields of chemical engineering, pharmaceuticals, and materials science, the size and shape of particles are critical parameters that directly influence product quality, flowability, dissolution rates, and stability. Traditional methods of particle sizing, such as sieving or laser diffraction, often provide only a volumetric equivalent diameter, neglecting the crucial morphological aspects of a sample. The addresses this gap by offering a high-resolution, image-based analysis system that combines robust suspension technology with advanced visual software, positioning itself as an essential tool for modern particle characterization.
The is a high-speed, vision-based particle analysis system designed to replace traditional sieve analysis in laboratory environments. By leveraging dynamic imaging technology, it provides real-time data on particle size, shape, and distribution with a level of detail that mechanical sieving cannot match. Core Functionality and Technology