Solutions for efficiently mass-producing lithium-ion battery materials.
Contributing to sustainable battery manufacturing with a continuous mixing process for electrode slurry that can reduce equipment investment.
The complete continuous mixing process for electrode slurry achieves an overwhelming productivity of up to 2,500 liters per hour. It significantly reduces capital investment costs and energy consumption, contributing to sustainable battery manufacturing with a cost-effective solution, while also aiding in labor reduction through advanced automation features. In our laboratory facilities for battery applications located in Switzerland and China, we conduct proof-of-concept experiments regarding product quality, yield, and discharge volume, leading to optimized designs. We provide comprehensive solutions for lithium-ion battery material production, covering everything from process development, engineering, automation, installation, commissioning, to training. [Supporting solutions for such challenges] ■ We want to shorten the time from raw material supply to degassing. ■ We want to enhance process stability and slurry homogeneity. ■ We want to maintain production volume while reducing operational costs. ■ We want to achieve labor reduction through automation. *For more details, please refer to the materials. Feel free to contact us.
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[Comprehensive Support from Start to Finish] We provide full support to our customers throughout all stages of the project. We offer a wide range of services, from process development to engineering, manufacturing, process automation, installation, commissioning, training, and customer service. *For more details, please refer to the materials. Feel free to contact us as well.*
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*For more details, please refer to the materials. Feel free to contact us as well.
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Groundbreaking ceremony for the Beuler Crushing and Dispersion Research & Training Center held in China.
Beurer held the groundbreaking ceremony for the "Crushing and Dispersion Research & Training Center" in Wuxi, China, on April 9, 2025. The center is scheduled to be completed in June 2026 and will serve as a hub for research and development as well as training in a wide range of fields, including innovations in inks and coating technologies, applications in pesticides and cosmetics, and next-generation battery materials. After the center's completion, it will strengthen the R&D framework within China and provide efficient and advanced technical solutions to local and international customers, achieving sustainable development and differentiation. The experimental plan includes water-based and solvent-based crushing and dispersion of inks, paints, and electronic materials, as well as the formulation of lithium-ion battery materials and slurries, and the fibrillation of dry electrodes. Additionally, it will support the evaluation and development of polymers, ceramics, and metal materials, as well as the testing of auxiliary equipment. Plans are also in place to introduce experimental powder mixers, vacuum degassing machines, homogenizers, and particle size distribution analyzers in the future. In terms of safety, workshops will be established to handle flammable and explosive chemicals, and a strict management system for exhaust gas, wastewater, and waste will be implemented. The center will also comply with local government safety and environmental regulations, contributing to the reduction of compliance risks.
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Agreement on the supply contract for electrode slurry manufacturing machinery to FIB Corporation's lithium-ion battery production equipment.
We are pleased to announce that the Bühler Group has reached an agreement with FIB Company (Italy) regarding the supply of large-scale production equipment for lithium iron phosphate (LFP) batteries at their Teverola 2 plant. Our company plans to deliver a total of four continuous mixing lines for electrode slurry manufacturing, with two lines each for anodes and cathodes, expected to be installed by the end of 2025 and production to begin in 2026. These systems leverage our co-rotating twin-screw extrusion technology, consolidating multiple processes into a single continuous operation unit. This results in up to 25% lower energy consumption compared to traditional batch mixing methods and allows for operation with fewer operators. Additionally, the QuaLiB inline quality control system, equipped with sensors, data analytics, and automation features, enables precise monitoring of the manufacturing process, contributing to improvements in yield and cost.
