As a result of using a high-temperature furnace capable of reaching up to 2,000℃, impurities were removed through heat treatment, and the crystallinity of carbon nanotubes was improved.
We would like to introduce a case where Shinshu University’s Faculty of Engineering has implemented a "High-Temperature Vacuum and Atmosphere Furnace." We explored a method to enhance the crystallinity of carbon nanotubes by heating them in a vacuum to remove impurities. To carry out this heating process, it was necessary to introduce a new high-temperature furnace. After the introduction, impurities were removed through heat treatment, and we were able to achieve the initial goal of increasing the crystallinity of the carbon nanotubes. 【Case Overview】 ■ Challenges - A high-temperature furnace was needed to produce high-purity carbon nanotubes. - Carbon nanotubes can contain impurities such as metals during the production process. ■ Results - Having the equipment on-site provides the advantage of being freed from the transfer of samples and administrative procedures compared to using facilities at a different location. *For more details, please download the PDF or feel free to contact us.
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Our company specializes in the manufacturing of heaters used in ultra-high temperature ranges exceeding 800°C to 2,500°C. We are utilized in various fields, from research and development of new materials, manufacturing of lenses and semiconductors, to extreme environments such as nuclear and aerospace sectors. Moving forward, we will continue to leverage our expertise to propose products that meet our customers' needs.