Español

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

859
2023-12-25 14:01:12
Ver traducción

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

Recomendaciones relacionadas
  • Scientists simulate the conditions that allow photons to collide with photons by using lasers

    As far as quantum physics is concerned, one of the most striking predictions is that matter can be produced entirely from light (i.e., photons). Pulsars are an example of an object capable of achieving this feat.In a recent study reported in the journal Physical Review Letters, a research team led by scientists at Osaka University simulated the conditions that allow photons to collide with photons...

    2023-08-11
    Ver traducción
  • How Many Laser Enterprises are There in China?

     China's laser industry began in the 1980s, when the first private laser enterprise, Chutian Industrial Laser, was founded in 1985 by Sun Wen, an alumnus of Huazhong University of Science and Technology. In the 1990s, some young people with dreams began to make their mark in the laser industry. In 1995, Gao Yunfeng, 29, rented an apartment in Huaqiangbei with a deposit of 400,000 Hong Kong dollar...

    06-30
    Ver traducción
  • Researchers use lasers to measure and manipulate magnetic ripple interactions

    One vision for computing the future is to use ripples in magnetic fields as the fundamental mechanism. In this application, magnetic oscillators can be comparable to electricity and serve as the foundation of electronic products.In traditional digital technology, this magnetic system is expected to be much faster than today's technology, from laptops and smartphones to telecommunications. In quant...

    2024-03-05
    Ver traducción
  • Lawrence Livermore National Laboratory develops PW grade thulium laser in the United States

    Recently, according to Tom's Hardware, Lawrence Livermore National Laboratory (LLNL) in the United States is developing a PW (1015 W) level large aperture thulium (BAT) laser. It is reported that this laser has the ability to increase the efficiency of extreme ultraviolet lithography (EUV) light sources by about 10 times, and may potentially replace the carbon dioxide laser used in current EUV too...

    02-13
    Ver traducción
  • Accelerating electrons by emitting laser light into a nanophotonic cavity

    The laser driven particle accelerator on silicon chips was created by two independent research groups. With further improvements, this dielectric laser accelerator can be used in medicine and industry, and even in high-energy particle physics experiments.Accelerating electrons to high energy is usually accomplished over long distances in large and expensive facilities. For example, the electron ac...

    2023-10-28
    Ver traducción