As part of the IDEEL research project (Implementation of Laser Drying Processes for Economical & Ecological Lithium-Ion Battery Production), project partners from industry and research are developing a laser drying process for the more climate-friendly and economical serial production of lithium-ion batteries. Now, for the first time, the process has been successfully scaled up to a coating and drying speed of 5 m/min in a continuous process, proving that industrial implementation is technically possible and economically viable.
At SPIE Photonics West in San Francisco, CA, High Power Diode Laser specialist Laserline, Inc. will be showcasing laser solutions for key industrial applications such as the production of electric copper components, semiconductor processing and the drying of lithium-ion batteries. The technology leader in the field of infrared and blue diode lasers has unique systems such as a blue CW laser with 4 kW output power and a blue 200 W pulse laser in its portfolio.
Diode laser specialist Laserline will be presenting sustainable solutions for the coating of wind turbine bearing bolts and brake discs as well as the additive manufacturing of copper components at formnext 2023. Improvements in energy and material efficiency are just as much in focus as environmental and climate protection as well as resource conservation through reduced process footprint. Interested parties will find Laserline in Hall 12.0, Booth E19.
Up until now, battery electrodes have been dried primarily in gas-operated conveyor furnaces. However, a recently developed approach based on diode lasers is noticeably superior to the convective drying process and for the first time makes it possible to produce laser-dried anodes and cathodes in a roll-to-roll process. A white paper by Laserline and staff from the PEM (Production Engineering of E-Mobility Components) group at RWTH Aachen University highlights the advantages of this diode laser-based electrode drying process and outlines the path to more efficient, cost-effective and environmentally friendly battery production.
LWL-Sachsenkabel GmbH will present the spectrum of its services in the field of customized cabling solutions for users in the telecommunications, data center and building sector at ANGA COM 2023 (May 23-25 in Cologne). Another highlight of the trade show appearance is the C2E high-density system. Visitors to the trade fair will find Sachsenkabel at the booth of the US parent company Amphenol Corporation in Hall 8, Booth D80.
The Laserline company's presentation at the Laser World of Photonics 2022 focusses on technological innovation. To be presented are the first blue diode laser with 3 kW CW output power and a new high-power-cladding-solution using a 45 kW IR diode laser. The latter was developed in cooperation with the Fraunhofer IWS.
Laserline has expanded its company presence in Pune / India towards a full subsidiary. With this, the diode laser specialist is merely reacting to growths in its business in South Asia. This seventh foreign subsidiary distributes the complete Laserline product portfolio and guarantees an optimal existing customer care by means of trained service technicians and a comprehensive spare part service.
Within a year, Laserline has been able to double the power of blue CW high-power diode lasers with 450 nm wavelength. With the LDMblue 2000-60, a new high-power diode laser is available in the compact 19” rack, offering 2 kW output power at 60 mm mrad beam quality. As a result, when welding non-ferrous metals, especially when joining copper components for the electronics industry, higher process speeds and deeper weldings become possible.
At the Battery Show 2023 Laserline will present energy-efficient solutions for industrial material processing in the field of electromobility. Key topics include copper welding with blue 3 kW cw diode lasers, brake disc cladding to reduce urban particulate pollution, laser drying processes for economical series manufacturing of lithium-ion batteries, and welding applications for sealing battery casings.
LWL-Sachsenkabel GmbH has launched a modular rack unit with high packing density for structured cabling in 400G and 800G data centers. The 19-inch MRU system is available in 1U installation height, can hold up to 144 fibers, and is suitable for patch and splice applications.
The IDEEL research project, supported by the German Federal Ministry of Education and Research (BMBF) as part of the Battery 2020 funding program, aims to launch a laser drying process for a more climate-friendly and economical series production of lithium-ion batteries. The results will be incorporated into the Fraunhofer Research Fab Battery Cells (Forschungsfertigung Batteriezelle) in Münster, Germany, which will enable users from both industry and research to test and optimize the series production of new batteries.
Up until now, battery electrodes have been dried primarily in gas-operated conveyor furnaces. However, a recently developed approach based on diode lasers is noticeably superior to the convective drying process and for the first time makes it possible to produce laser-dried anodes and cathodes in a roll-to-roll process. A white paper by Laserline and staff from the PEM (Production Engineering of E-Mobility Components) group at RWTH Aachen University highlights the advantages of this diode laser-based electrode drying process and outlines the path to more efficient, cost-effective and environmentally friendly battery production.
At SPIE Photonics West in San Francisco, CA, High Power Diode Laser specialist Laserline, Inc. will be showcasing laser solutions for key industrial applications such as the production of electric copper components, semiconductor processing and the drying of lithium-ion batteries. The technology leader in the field of infrared and blue diode lasers has unique systems such as a blue CW laser with 4 kW output power and a blue 200 W pulse laser in its portfolio.
As part of the IDEEL research project (Implementation of Laser Drying Processes for Economical & Ecological Lithium-Ion Battery Production), project partners from industry and research are developing a laser drying process for the more climate-friendly and economical serial production of lithium-ion batteries. Now, for the first time, the process has been successfully scaled up to a coating and drying speed of 5 m/min in a continuous process, proving that industrial implementation is technically possible and economically viable.