| Grindometers | TQC | The TQC Grindometers or Fineness of Grind Gauges are precision instruments to determine particle size and fineness of many materials like paints, lacquers, pigments, filler, chocolate etc.. Most TQC Grindometers have double grooves with graded slopes grad...view more The TQC Grindometers or Fineness of Grind Gauges are precision instruments to determine particle size and fineness of many materials like paints, lacquers, pigments, filler, chocolate etc.. Most TQC Grindometers have double grooves with graded slopes graduated in three different parameters: µm (microns), NS (Hegman) and PCU (North). Gauge and beveled scraper are made of hardened stainless steel and have an accuracy of 2 µm. view less |  |
| LA-950 - High Performance Laser Diffraction Analyzer | HORIBA Instruments, Inc. | LA-950 - High Performance Laser Diffraction Analyzer uses an innovative optical system to obtain the world's widest dynamic range of 10 nm – 3000 mm. This makes it possible to perform precise particle size measurements on a wide scale in many different industries. From ultra-fine nano-order particles to individually visible particles, all can be measured with this single instrument. Designed to handle the entire range of applications extending from the complex needs of research to routine quality control procedures, the LA-950 offers practicality as a"standard instrument" that is easy to use and enables precise measurement. LA-950 has a wide range of applications including: nano-level research and development, ceramics, pigments...view more LA-950 - High Performance Laser Diffraction Analyzer uses an innovative optical system to obtain the world's widest dynamic range of 10 nm – 3000 mm. This makes it possible to perform precise particle size measurements on a wide scale in many different industries. From ultra-fine nano-order particles to individually visible particles, all can be measured with this single instrument. Designed to handle the entire range of applications extending from the complex needs of research to routine quality control procedures, the LA-950 offers practicality as a"standard instrument" that is easy to use and enables precise measurement. LA-950 has a wide range of applications including: nano-level research and development, ceramics, pigments, battery materials, catalysts, cosmetics, pharmaceuticals and food products. view less |  |
| LA-300 - Portable Routine Laser Diffraction Analyzer | HORIBA Instruments, Inc. | The LA-300 - Portable Routine Laser Diffraction Analyzer uses Mie Scattering (laser diffraction) to measure particle size of suspensions or dry powders. The speed and ease-of-use of this technique makes it the most popular for many applications. The LA-300's revolutionary size makes it a welcome change to the other large and cumbersome designs. It's real-time displays of particle size distribution and sample concentration let the user check sample at all times. Using a diode laser, the LA-300 measures particles ranging anywhere between 0.1 and 600 μm in diameter with unprecedented precision, and processes high-resolution data for display within 20 seconds. The wide measurable range makes it ideal for application in fundamental studies and quality control of production lines in such diverse fields as pharmaceuticals, fine ceramics, metal powders, polymers, pigments...view more The LA-300 - Portable Routine Laser Diffraction Analyzer uses Mie Scattering (laser diffraction) to measure particle size of suspensions or dry powders. The speed and ease-of-use of this technique makes it the most popular for many applications. The LA-300's revolutionary size makes it a welcome change to the other large and cumbersome designs. It's real-time displays of particle size distribution and sample concentration let the user check sample at all times. Using a diode laser, the LA-300 measures particles ranging anywhere between 0.1 and 600 μm in diameter with unprecedented precision, and processes high-resolution data for display within 20 seconds. The wide measurable range makes it ideal for application in fundamental studies and quality control of production lines in such diverse fields as pharmaceuticals, fine ceramics, metal powders, polymers, pigments, paints/coatings, adhesives, catalysts, minerals and clays, just to name a few. view less |  |
| Fineness Of Grind Gages | BYK-Gardner USA | The Fineness of Grind Gage is used to indicate the fineness of grind or the presence of coarse particles or agglomerates in a dispersion. It does not determine particle size or particle size distribution. Grind gages are used in controlling the production...view more The Fineness of Grind Gage is used to indicate the fineness of grind or the presence of coarse particles or agglomerates in a dispersion. It does not determine particle size or particle size distribution. Grind gages are used in controlling the production, storage, and application of dispersion products produced by milling in the paint, plastic, pigment, printing ink, paper, ceramic, pharmaceutical, food, and many other industries. view less |  |
| Rheolaser™ Coating | Formulaction Inc. | The Rheolaser™ Coating is a non-invasive, optical technique used to analyze the drying profiles of thing films. The device uses Diffusing Wave Spectroscopy to detect the Browniam motion of the particles inside of a thin film sample as it dries in order to...view more The Rheolaser™ Coating is a non-invasive, optical technique used to analyze the drying profiles of thing films. The device uses Diffusing Wave Spectroscopy to detect the Browniam motion of the particles inside of a thin film sample as it dries in order to give profile evolution and characteristic drying times. view less |  |
| Turbiscan™ AGS | Formulaction Inc. | The Turbiscan™ AGS integrates the Turbiscan™ LAB stability analyzer to an autosampling robot capable of analyzing up to 54 samples with three different temperature chambers operating from RT to 60 degrees C. |  |
| Turbiscan™ LAB | Formulaction Inc. | The Turbiscan™ LAB can quantify and predict the stability of concentrated systems such as emulsions, dispersions and foams. A non-invasive Multiple Light Scattering (MLS) technique is employed to determine the intensity of particle migration kinetics (sed...view more The Turbiscan™ LAB can quantify and predict the stability of concentrated systems such as emulsions, dispersions and foams. A non-invasive Multiple Light Scattering (MLS) technique is employed to determine the intensity of particle migration kinetics (sedimentation, creaming, clarification) and particle size change kinetics (flocculation, coalescence, packing) as well as phase thickness growth. Analysis can be performed from RT to 60 degrees C on samples up to 95% concentration. view less |  |
