Nano Premixer PR-1 equipped with patented technology for rotation and ultrasonic dual surface irradiation.
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Presenting technical explanation materials! Solving issues of material damage and dispersion unevenness caused by ultrasound.
The ultrasonic nano-dispersion device 'PR-1' utilizes a patented technology called "Dual Sonic Method," which combines rotation and ultrasound to achieve high-quality dispersion in a container tilted at 45 degrees. Processing can be safely conducted in a sealed container, allowing for the dispersion of carbon nanotubes, which would typically be shortened by ultrasonic homogenizers, while maintaining their fiber length. 【Features】 ■ Can suppress damage to materials and shortening of fibers ■ Difficult to create dispersion unevenness due to ultrasound directionality and standing waves ■ Good dispersion reproducibility ■ Prevents thermal degradation of materials through an integrated cooling system and water temperature management program ■ Achieves sealed container processing to prevent the scattering of fine particles ■ Contributes to reducing experimental costs by allowing processing of expensive nano materials in small quantities. ★ We are currently offering explanatory materials on the new technology "Dual Sonic Method!" (Demonstrations and evaluation tests are also available.)
basic information
【Dispersion Examples】*Please refer to the materials as well. - Carbon Nanotubes - Graphite - Silica - Talc - Carbon Nanofibers - Graphene Oxide - Redispersion of Graphene Dispersion Liquid
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Model number/Brand name
THINKY
Applications/Examples of results
★We are currently offering explanatory materials on the new technology "Dual Sonic Method"! (We also accept demo and evaluation tests.)
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News about this product(8)
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Joint Technical Seminar of Three Companies | Dispersion Technology Using Ultrasound: From CNT to Advanced Material Technologies - Measurement and Evaluation Techniques
This seminar is now fully booked, and we have closed registration. Thank you very much for the many applications. Carbon nanotubes (CNTs) are future materials that are expected to be utilized in many industries due to their excellent properties. However, there are still many unknowns in the dispersion and evaluation methods for utilizing CNTs, and each manufacturer is independently exploring their own methods. As a result, many engineers and researchers have expressed a desire to learn about these methods based on concrete examples. In this seminar, we will welcome Mr. Kazufumi Kobashi from the National Institute of Advanced Industrial Science and Technology (AIST) to explain the methods and results related to the measurement of CNT length developed at AIST. Additionally, there will be technical presentations from co-hosting companies, a demonstration of the "Dispersion Nano Taro," and poster sessions featuring a Fourier-transform infrared spectrometer (FTIR) and a disk centrifuge particle size distribution measurement device (CPS). For those facing challenges in CNT research, this is an excellent opportunity to deepen your understanding from the preparation of CNT dispersion solutions to evaluation methods. We sincerely look forward to the participation of everyone considering the utilization of CNTs.
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We will be exhibiting at the 2nd [Kansai] Adhesive and Joining EXPO (INTEX Osaka).
Our company will be exhibiting at the "2nd [Kansai] Adhesive and Joining EXPO" held at Intex Osaka starting from Wednesday, May 9, 2018. We invite you to visit our booth when you attend.
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We will be exhibiting at the Research, Development, and Analysis Equipment Exhibition 2018 on June 20-21.
Our company will be exhibiting at the Research, Development, and Analysis Equipment Exhibition 2018, which will be held at AIM3F Central Exhibition Hall (Nishinihon Comprehensive Exhibition Hall) starting from Wednesday, June 20, 2018. We invite you to visit our booth when you attend.
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[7/10 Tokyo] Announcement of the Shinky Lecture 2018
Nanomaterials are expected to be materials that will lead to the development of next-generation industrial foundational technologies and are being researched in various fields. We are pleased to announce that we will be hosting a lecture featuring prominent researchers in the field of nanomaterials from the United States and Japan. We hope this will provide an opportunity for everyone involved in nanomaterials research to gain valuable insights. We sincerely look forward to your participation. - This event is aimed at engineers and researchers in the research, development, and manufacturing departments of companies and universities. - Simultaneous interpretation will be provided at this lecture.
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[7/12 Osaka] Announcement of the Shinky Lecture 2018
Nanomaterials are expected to be materials that will lead to the development of next-generation industrial foundational technologies and are being researched in various fields. We are pleased to announce that we will be hosting a lecture featuring prominent researchers in the field of nanomaterials from the United States and Japan. We hope this will provide an opportunity for those involved in nanomaterials research to gain valuable insights. We sincerely look forward to your participation. - This event is targeted at engineers and researchers in the research, development, and manufacturing departments of companies and universities. - Simultaneous interpretation will be provided during the lecture.
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THINKY Corporation has realized simultaneous processing of stirring and degassing through the concept of combining two types of rotation: rotation and revolution. The "Awatori Rentaro," a rotary-revolution mixer, was born as a device that can process these two opposing processes, "stirring" and "defoaming," which had long been considered separate steps in the material processing process, simultaneously and in a short time. Currently, Awatori Rentaro has grown into a diverse lineup, ranging from small tabletop models for laboratories to large-scale production models. We have received numerous inquiries from various fields both domestically and internationally. THINKY will continue to assist in solving material processing challenges and building a foundation for mass production with our unique material processing technology and know-how.