chanelink logo
CHANELINK
Polski

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

858
2023-12-25 14:01:12
Zobacz tłumaczenie

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

Powiązane rekomendacje

  • Observation of laser power changes in ultrafast protein dynamics

    When researchers at the Max Planck Institute of Medicine conducted their first ultrafast X-ray crystallographic experiment on myoglobin in 2015, they were not aware that they had conducted the wrong experiment. By increasing the power of X-ray free electron lasers to ensure usable diffraction patterns, lead researcher Ilme Schlichting said that they "suddenly entered the wrong [excited] state with...

    2024-02-28
    Zobacz tłumaczenie

  • The globalization of three-color laser technology will be further accelerated

    Recently, the IFA2023 Consumer Electronics Show in Berlin, Germany opened, Hisense exhibited "three-color laser projection family bucket" attracted the attention of media and tourists from all over the world.Since Hisense's young fashion brand Vidda launched a series of three-color laser projection, its accumulation based on three-color laser technology is competing globally and has become a...

    2023-09-04
    Zobacz tłumaczenie

  • Leica Measurement System Development First Person Laser Scanner

    Leica Geosystems, a subsidiary of Hexagon, has developed Leica BLK2GO PULSE, its first person laser scanner, which combines LiDAR sensor technology with the original Leica BLK2GO shape. The technology will be released in early 2024.The scanner provides users with a fast, simple, and intuitive first person scanning method that can be controlled through a smartphone and provides real-time full color...

    2023-10-19
    Zobacz tłumaczenie

  • Implementation of 20W high-power fiber optic frequency comb by the Institute of Physics, Chinese Academy of Sciences

    High power optical frequency combs play a crucial role in nonlinear precision spectroscopy, extreme ultraviolet optical frequency comb generation, nuclear atomic clock research, and other fields. Fiber optic femtosecond lasers are the preferred solution for achieving high power optical frequency combs due to their simple structure, stable performance, and easy amplification.However, due to the una...

    2023-10-11
    Zobacz tłumaczenie

  • Scientists demonstrate powerful UV-visible infrared full-spectrum laser

    Figure: a. Schematic diagram of the HCF-LN-CPPLN experimental setup. W. CaF? Window M, mirror.b. The bright white light circular spots emitted by the CPPLN sample.c. The first-order diffraction beam of B displays a colorful rainbow pattern from purple to red.d. The HCF-LN-CPPLN module generates normalized spectra of the output full spectrum laser signal through the second NL HHG and third NL SPM e...

    2023-08-25
    Zobacz tłumaczenie