Calculate adhesion force of a single particle using image analysis and statistical methods! [Contract Measurement]
We measure the adhesion force when particles are subjected to an impact, causing them to separate from the desired plane due to the impact acceleration. It is possible to capture flying images of the particles, allowing observation of them flying in clumps. Additionally, temperature and humidity control is available as an option, with automatic recording of temperature and humidity. 【Features】 ■ Measurement time is significantly reduced compared to the centrifugal method ■ Time for data processing comparison is also significantly reduced ■ Flying images of toner can be captured ■ The appearance of clumps flying can be confirmed ■ The adhesion plane can be grounded *For more details, please refer to the PDF document or feel free to contact us.
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【Other Features】 - Compared to the centrifugal method, the force acts rapidly and can be faithfully adapted to phenomena such as electrophotography. - Automatically records images before and after measurement. *For more details, please refer to the PDF document or feel free to contact us.
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Independent Administrative Institution National Institute of Advanced Industrial Science and Technology Technology Transfer Company The concept of "measuring force" will change significantly. The "small forces" that could not be measured with conventional measuring devices have become an accessible approach in research and development. NanoSees provides cutting-edge measurement devices and measurement technologies that can assist your research and development efforts. We are a solution company for measuring particle adhesion forces. Technology Introduction We offer measurement solutions focused on the measurement and analysis technologies related to the adhesion, aggregation, and friction forces of particles in the micrometer range. Accurately understanding the physical properties of powders from various angles is crucial technical information for product development. It is possible to predict the behavior of powders in bulk, including flowability, compressibility, and stress relaxation, as well as the behavior of aggregates. Our measurement methods allow for a significantly clearer evaluation of powder physical properties, which have been difficult to understand in previous research and development. This enables rapid product development, quality control of products, and stabilization of manufacturing processes (such as achieving measured and managed powder physical properties).
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