EMS Rheometer - Remote and sealed viscosity measurement and viscosity analysis!!
RheoBox Plus
The EMS rheometer "Reobox," which uses the remote electromagnetic drive method (EMS method), is a system that allows for viscous analysis in small quantities and in a sealed environment.
The Reobox Plus enables sealed measurements that are difficult with other viscometers and rheometers by remotely controlling and detecting the measurement probe using the patented technology "EMS (Electromagnetic Remote Rotational Drive) Method." 【Equipment and Remote, Independent, Non-contact, Small Volume】 - Measurement is possible simply by placing the measurement cell on the device. - No need for equipment cleaning after each measurement. - Disposable measurement cells can handle biohazards such as blood and plasma. - Sealed measurement containers can accommodate volatile and odorous samples. - Approximately 0.5mL or less. 【Various Measurement Probes Can Be Selected According to Applications】 - For ultra-low viscosity range (0.5~100mPa·s) - For low viscosity range (10~100mPa·s) - For medium to high viscosity range (100~25,000mPa·s / 1,000~1,000,000mPa·s) 【Compact Design and High Expandability】 - The measurement unit is in the world's smallest size class at 10x10x10cm. - The measurement unit and control unit can be separated by up to 2 meters (for installation within a draft chamber). - Capable of viscosity measurements in high-temperature and high-pressure environments (such as supercritical fluid viscosity measurements). - Also suitable for inline measurements (such as measuring the time-dependent changes in viscosity of inks and culture media).
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basic information
Measurement Method: Remote Electromagnetic Drive Method (EMS Method: Electro Magnetically Spinning Method) Viscosity Range: 0.5~1,000,000 mPa·s Measurement Target: Liquid Viscosity / Shear Rate / Shear Stress Measurement Probes: For Ultra Low Viscosity Range (0.5~100 mPa·s) For Low Viscosity Range (10~100 mPa·s) For Medium to High Viscosity Range (100~25,000 mPa·s / 1,000~1,000,000 mPa·s) Measurement Containers: Glass Petri Dish, Sealed Acrylic Container, Sealed PTFE Container (Chemical Resistant), etc. Options: Temperature Control Unit
Price range
P5
Delivery Time
※Approximately 6 to 8 weeks.
Applications/Examples of results
The EMS rheometer is active in many areas: - Viscosity profiling of rat plasma in new drug research and development - Examination of coating conditions for material slurries in next-generation electrode development - In-process management in electronic materials manufacturing (ceramic slurries) - Research and development of wafer polishing agents (CMP slurries) - Manufacturing management of culture media (formulation endpoint management due to time-dependent viscosity changes) - Research and development of coatings and examination of application conditions - Viscosity evaluation of inkjet inks - Examination of thickener properties in formulation research (acquisition of flow curves and understanding of gelation points) - Understanding the viscosity of skincare products such as lotions and creams Additionally, measurements can be performed across a wide viscosity range from low to high viscosity. Triple Eye provides various solutions related to rheology. Please feel free to consult us. https://www.te-tripleeye.com
Detailed information
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Optional temperature control unit (10~70℃)
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High temperature and high pressure applications Viscosity measurement of supercritical carbon dioxide fluid at 100 MPa/100°C
Company information
Our company is committed to commercializing unique measurement technologies and associated techniques invented by Professor Sakai of the University of Tokyo's Institute of Industrial Science, based on bold speed and meticulous verification, contributing to the industry with Japan's original and one-of-a-kind technologies. With the slogan "We Spectrorize Rheology!!", we are tackling various challenges related to rheology. Our first product, the viscosity analysis system, has realized a new measurement method (EMS method: remote electromagnetic rotary drive method) and was developed in collaboration with the University of Tokyo under the Advanced Measurement and Analysis Technology and Equipment Development Program of the Japan Science and Technology Agency (JST). This technology has been requested since our founding. We continue to introduce such Japan-origin, world-first technologies and products, focusing not only on the domestic market but also on overseas markets, ensuring they are not mere follow-up products. We look forward to your expectations for our future new technology products.