Research and Development of Secondary Batteries and All-Solid-State Batteries: Efficient Electrolyte Evaluation using a Heating Furnace
Minimize work inside the glove box ◎ Screening of solid electrolyte materials / Impedance evaluation by temperature characteristics ◎ Multiple uniform, short time, and accurate test evaluation
It excels in material screening of solid electrolytes and impedance evaluation according to temperature characteristics! ▼Features▼ 1. Reproduces various heating patterns of inorganic electrolyte heating and sintering processes in a short time. - Temperature can be adjusted with an accuracy of ±1°C within a temperature range of 50°C to 1200°C. - The heating rate is also a maximum of 300°C/min, allowing for various heating patterns to be tested in a short time even from room temperature. 2. Efficient simultaneous evaluation of impedance measurements for lithium-ion conductivity (conductivity). - Structure allows for heating with electrodes attached to the top and bottom of the coin cell. - The coin cell holder is prepared for 4 slots. - Uniform heating/measuring of 4 samples simultaneously under the same conditions. - Various coin cell diameters available from Φ20 to Φ8mm. 3. Simple operation and design that prevents exposure to the atmosphere / atmosphere control. - Work inside the glove box involves only setting the samples. - Inside the quartz tube, a quartz coin cell holder is maintained, and only the coin cell is accurately heated. - The completely sealed transparent quartz tube is heated from the outside using light heating. - Gas introduction systems and atmosphere control during heating are also easy to manage. Please contact us for more details.
basic information
Temperature range: RT ±20~1200℃ Temperature control accuracy: ±1℃ (relative to temperature protocol) Heating speed: MAX 300℃/min Coin cell holder: 4 slots (can heat/measure under the same conditions) Structure: Heating while electrodes are attached to the top and bottom of the coin cell Coin cell diameter: Φ20~Φ8mm Heating method: Light concentration heating 【Heating test procedure】Set the sample in the holder → Seal inside the quartz tube → Take it outside as is → Just set it in the heating device.
Price information
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Delivery Time
Applications/Examples of results
Tokyo Institute of Technology, Sugano-Hirayama Laboratory, National Institutes of Natural Sciences, Molecular Chemistry Research Institute, Kobayashi Group.
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"OCT-equipped heating observation imaging furnace" contributes to global research! Direct observation of internal structural changes at high temperatures.
The "OCT-equipped heating observation furnace" is a compact design that utilizes a focused heating method and is an internal observation device equipped with OCT (Optical Coherence Tomography). Using this device, a research group from Yokohama National University and the Kanagawa Institute of Industrial Science and Technology successfully observed the internal structural changes of ceramics during sintering at high temperatures for the first time in the world. For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
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"High-Temperature Heating, Tensile Compression, In-Situ Observation" Atmosphere control also / High-Temperature Tensile Compression Observation Device "CATY-T3H" Achieves space-saving with a compact tabletop design.
The "CATY-T3H SYSTEM" is a tabletop high-temperature tensile observation device that allows for thermal fatigue testing while observing the condition of the sample surface in real-time. It employs a dual-swing crosshead design to keep the sample position centered and ensure no changes are missed!
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"OCT-equipped heating observation imaging furnace" contributes to the world's first research! Direct observation of internal structural changes at high temperatures.
The "OCT-equipped Heating Observation Furnace" is a compact design that utilizes a focused heating method and is an internal observation device equipped with OCT (Optical Coherence Tomography). Using this device, a research group from Yokohama National University and the Kanagawa Prefectural Institute of Industrial Technology successfully observed the internal structural changes of ceramics during sintering at high temperatures for the first time in the world. ◆ Key Points ◆ - Internal structure observation at high temperatures In-situ observation up to MAX 1800℃ - Understanding weight and thermal changes Clarifying the relationship between internal changes and temperature/weight changes - Excellent operability and controllability Data acquisition combining weight changes with temperature For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
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"Tabletop-sized high-temperature tensile observation device" High-temperature tensile compression observation device "CATY-T3H" with high-temperature heating, tensile compression, in-situ observation, and atmosphere control also available.
The "CATY-T3H SYSTEM" is a tabletop-sized high-temperature tensile observation device that allows for thermal fatigue testing while observing the condition of the sample surface "on-site," keeping the sample position centered to capture any changes!
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"OCT-equipped heating observation imaging furnace" contributes to global research! Direct observation of internal structural changes at high temperatures.
The "OCT-equipped heating observation imaging furnace" is a compact design that utilizes a focused heating method and is equipped with OCT (Optical Coherence Tomography), serving as an internal observation device. Using this device, a research group from Yokohama National University and the Kanagawa Institute of Industrial Science and Technology successfully observed the internal structural changes of ceramics during sintering at high temperatures for the first time in the world. For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
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Mikyo Manufacturing provides a consistent production system that develops, designs, manufactures, and supports testing machines and measurement devices tailored to the objectives and applications of customers in fields such as material research and development, as well as in accordance with material testing standards and methods. The testing machines that respond to requests from various major manufacturers and research institutions are mostly customized products. When measuring the durability of new materials, they are completely made-to-order. We also pay attention to the "usability," which varies depending on the installation location and users, and we adjust the testing machines to ensure they are optimal for each customer.