日本語

CO2 laser cutting machine for battery shell shaped parts: an innovative tool in energy technology manufacturing

203
2023-12-25 14:01:12
翻訳を見る

The development of new energy technology has made battery technology the engine for advancing clean energy. In battery manufacturing, the cutting of battery shell shaped parts is a crucial step. CO2 laser cutting machines have become an innovative tool for promoting the development of this field due to their high efficiency and precision. This article will delve into the important characteristics of this laser technology and its key role in battery manufacturing.

The manufacturing of battery shell shaped parts involves complex shapes and contours, and traditional cutting methods are difficult to meet high-precision and shaped requirements. CO2 laser cutting achieves precise and clear cutting of various irregular parts through highly focused laser beams. This high precision directly affects the quality and performance of battery packaging, making the battery more reliable under extreme conditions.

CO2 laser cutting machines have a high level of automation. With the help of advanced CNC technology, automatic cutting is achieved through preset programs without the need for complex manual operations. Improve production efficiency while reducing the impact of human factors, ensuring the consistency and quality of battery shell shaped parts.

The thermal impact during laser cutting is minimal, reducing material thermal deformation and maintaining cutting edge accuracy. This is a significant breakthrough in the manufacturing of batteries with high packaging requirements.

CO2 laser cutting machines also face challenges in application, such as high investment costs and operational difficulties. The industry needs to work together to increase research and development promotion efforts and promote its widespread application in the field of battery manufacturing.

Source: Laser Net

関連のおすすめ
  • A research team from the University of Chicago in the United States has demonstrated a new method for obtaining mid infrared emission using colloidal quantum dots (QDs)

    According to reports, a research team at the University of Chicago in the United States recently demonstrated a new method for obtaining mid infrared emission using colloidal quantum dots (QDs), which may open up new applications for mid infrared light sources.Colloidal quantum dots are a type of semiconductor nanocrystal material that provides a promising approach for the synthesis of light sourc...

    2023-09-21
    翻訳を見る
  • Researchers have discovered new multiphoton effects in quantum interference of light

    An international research team from Leibniz University in Hanover and Strathclyde University in Glasgow overturned the previous hypothesis about the influence of multiphoton components in the thermal field and the interference effect of parameterized single photons. The journal Physical Review Letters published the team's research."We have demonstrated through experiments that the interference eff...

    2024-01-24
    翻訳を見る
  • IoTech shapes the flexible future of 3D printed electronic products

    The rapidly developing IoTech enterprise headquartered in Israel will showcase at LOPEC 2024 how its disruptive digital manufacturing continuous laser assisted deposition technology shapes the future of microelectronics and additive manufacturing.Herv é Javice, co-founder and CEO of ioTech, commented, "We are delighted to be attending the LOPEC exhibition for the first time and showcasing ...

    2024-02-27
    翻訳を見る
  • The scientific research team of Shenzhen University of Technology has discovered a new mechanism of attosecond pulse coherent radiation

    Recently, a team of Professor Ruan Shuangchen and Professor Zhou Cangtao from Shenzhen University of Technology proposed for the first time internationally a physical solution based on the generation of attosecond pulses and subperiodic coherent light shock radiation from a superluminal plasma wake field, and explained a new coherent radiation generation mechanism dominated by collective electron ...

    2023-10-14
    翻訳を見る
  • Luxiner launches modular laser processing solution Multiscan HE

    Recently, Luxiner, the leading brand in the field of laser technology in the UK, announced the launch of MultiSCAN ®  The latest members of CO2 laser systems - Multiscan HE 10i, 15i, and 25i. These new systems are presented in a completely independent form, integrating power, PC, and software, providing users with comprehensive solutions.The Multiscan HE 10i, 15i, and 25i not only inherit the indu...

    2024-06-07
    翻訳を見る