Introduction to Technical Monographs: Materials Technology for Lithium-Ion Batteries and All-Solid-State Batteries
Ishikawa-style automatic mortar and pestle AGA
Materials Technology for Lithium-Ion Batteries and All-Solid-State Batteries: From Processes to Evaluation Techniques
Introduction to Technical Monographs Title: Materials Technology for Lithium-Ion Batteries and All-Solid-State Batteries: From Processes to Evaluation Techniques Editor: Yoji Sakurai (Toyohashi University of Technology) Co-authors: Ryosuke Inada (Toyohashi University of Technology) Yuto Tojo (Toyohashi University of Technology) Kazuhiro Hikima (Toyohashi University of Technology) Atsunori Matsuda (Toyohashi University of Technology) Hiroyuki Muto (Toyohashi University of Technology) Publisher: Science Information Publishing Co., Ltd. Usage of AGA mentioned in the book When investigating the electrochemical properties of a certain electrode active material as a lithium-ion battery, it is necessary to prepare the electrode active material according to the measurement. To ensure the overall electronic conductivity of the electrode and the uniformity of the electrochemical reaction, it is mixed with a conductive additive to form a composite electrode. It is mentioned that our grinding machine (AGA) may be used for this mixing process.
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basic information
**Features of the Ishikawa Type Stirring Mill** The following features are available: (1) Uniform and consistent mixing and grinding treatment within the bowl due to unique design (2) Simultaneous mixing and grinding processing is possible (3) High driving torque allows for processing of high-viscosity materials (4) Lower processing energy compared to ball mills, enabling "mild processing" **Basic Specifications of the Product** - Bowl types: Agate, Alumina, Tungsten Carbide - Bowl inner diameter: Agate: 120mm, Alumina: 120mm, Tungsten Carbide: 140mm - Bowl depth: Agate: 30mm, Alumina: 30mm, Tungsten Carbide: 63mm - Processing volume: 0.05L - Device width: 410mm - Device depth: 490mm - Device height: 1180mm - Power supply: 100V, 0.2kW **Introduction to the Test Laboratory** You can use the experimental machine for free to evaluate the functions and performance of the Ishikawa Type Stirring Mill. Additionally, our staff, who are well-versed in stirring and grinding processes, will support your experiments according to your needs. Furthermore, we will propose the optimal selection of the Ishikawa Type Stirring Mill and stirring and grinding treatment for your processing needs. Please feel free to utilize this when considering your options.
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■This machine is primarily designed for the preparation of analytical samples and the grinding of small amounts of hard materials. ●It is widely used for the kneading and mixing of piezoelectric sensors, gas sensors, MEMS sensors, thermal conversion elements, porous ceramics, LTCC multilayer substrates, 3D printer pastes, dental materials, artificial bone, and materials for artificial joints. ●In universities and corporate research and development departments, it is also utilized for the purpose of stirring and grinding the following materials: - Electronic component materials (sizing of ceramic particles) - Conductive inks, conductive adhesives (sizing of conductive particles and dispersion/mixing of adhesives) - IR transparent inks (dispersion/mixing) - Insulating materials, sealing materials (sizing of insulating materials and dispersion/mixing of sealing materials) - 3D printer materials (dispersion/mixing) - Synthesis processing of hydrogen storage materials - Pigments, glazes (sizing of pigments, etc.) - Metal (gold, silver, copper) pastes - Glass pastes - Carbon pastes - Lithium battery materials, electrode materials for all-solid-state batteries - Dispersion of carbon nanotubes - Abrasive stones, abrasive grains, polishing agents - Brake shoes - Pharmaceuticals, ointments (dispersion/mixing) - Chemicals, cosmetics (sizing and dispersion/mixing of metal microparticles) - Chemical and fiber materials - Research and development equipment and devices (automatic mortar and pestle function)
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Download All Catalogs![Materials Technology for Lithium-Ion Batteries and All-Solid-State Batteries (Excerpt) [Scientific Information Publishing]](https://image.mono.ipros.com/public/catalog/image/01/b88/794559/IPROS18361494987123414824.jpeg?w=120&h=170)
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![[Please try it] Performance evaluation of the Ishikawa-style automatic mortar and pestle. First use of experimental machinery is free (on-site experiment) / Rental / Information on experimental agency services.](https://image.mono.ipros.com/public/catalog/image/01/737/457032/IPROS65038486654195314444.jpeg?w=120&h=170)
Company information
Our company is a specialized manufacturer of automatic mortar and pestle machines. The features of the automatic mortar and pestle (Ishikawa-style stirring and grinding machine) include the ability to simultaneously perform stirring, grinding, mixing, and kneading using unique technology. It has the following basic capabilities: 1. Uniform and precise mixing is possible - Allows for uniform mixing while controlling particle size. 2. Easy uniformity and control of particle size - Can achieve uniform particle size while finely grinding. 3. Prevents excessive deterioration of materials - Due to low mechanical stress (mild processing energy), it can process while suppressing over-grinding and chemical changes. - High-energy processing (such as ball mills) can cause reaction changes due to heat generation, but temperature management is easier with the automatic mortar and pestle. 4. Suitable for small-scale prototyping and experiments - Ball mills and planetary mixers require large amounts of raw materials, but the automatic mortar and pestle can prototype with a minimum of 0.5g. - Easily adaptable for process scale-up (easy application from small to large scale). 5. Capable of processing slurries, pastes, and high-viscosity materials - The motor torque for the pestle rotation is high, allowing for processing of high-viscosity materials.
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![[Usage Example] How to Make Delicious Soba Noodles](https://image.mono.ipros.com/public/product/image/162/2001508340/IPROS5868994205596604712.jpg?w=280&h=280)
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![[Paper Introduction] "Mechanochemical Dehydration of Hydrated Crystals"](https://image.mono.ipros.com/public/product/image/cc2/2001508346/IPROS2603178667283669911.jpg?w=280&h=280)
