Italiano

Laser Photonics cleaning technology simplifies the removal of biofilms in industrial environments

793
2023-09-20 14:41:43
Vedi traduzione

Laser Photonics Corporation is a leading global industrial developer of CleanTech laser systems for laser cleaning and other material applications, highlighting a key application of its CleanTech laser system.

Wayne Tupuola, CEO of Laser Photonics, commented, "Our CleanTech laser cleaning system provides an efficient and cost-effective method for removing biofilms from various materials and surfaces.

When microorganisms adhere to the surface of an object by secreting viscous gelatinous substances, they form a biofilm in a humid environment. Biofilm can be formed on water treatment system components, food processing plant machinery, medical equipment, and ship hulls. CleanTech laser cleaning allows you to quickly evaporate biofilm on almost any surface through a non-contact, environmentally friendly program that is safe and easy to use for operators.

CleanTech laser sandblasting technology
The CleanTech laser sandblasting technology manufactured by Laser Photonics is environmentally friendly, cost-effective, and time-saving. Applications include rust removal, paint removal, surface treatment, etc. This technology is an excellent alternative to traditional cleaning methods such as sandblasting, dry ice blasting, and other sandblasting techniques.

Source: Laser Network

Raccomandazioni correlate
  • BWT's 3000W product speed surges by 200%

    In the era of speed and precision, the field of thin and medium plate processing is experiencing a revolutionary transformation. Today, let's explore a remarkably fast tool -- BWT’s Lightning 3000W@34μm fiber laser, and witness its impressive performance.On busy production lines, this product is completing complex cutting tasks at astonishing speeds. Its high-speed, high-efficiency, and high-quali...

    05-12
    Vedi traduzione
  • A new type of flexible reflective mirror can improve the performance of X-ray microscopy

    A research team in Japan has designed a flexible and shapable X-ray reflector, achieving significant accuracy and higher stability at the atomic level.This new technology, developed by Satoshi Matsuyama and Takato Inoue from the Graduate School of Engineering at Nagoya University, in collaboration with the Japanese Institute of Physical and Chemical Research and JTEC Corporation, improves the perf...

    2024-05-06
    Vedi traduzione
  • Siemens will provide Rolls Royce with aerospace additive manufacturing components

    Recently, Siemens Energy's Materials Solutions division (hereinafter referred to as Siemens) officially signed a cooperation agreement with Rolls Royce, a well-known enterprise in the field of aviation engines in the UK, agreeing that Siemens will develop and supply mass-produced additive manufacturing components for Rolls Royce's civil aerospace business.Rolls Royce and 3D Printing TechnologyRoll...

    2024-12-13
    Vedi traduzione
  • Implementing and studying non Hermitian topological physics using mode-locked lasers

    A mode-locked laser is an advanced laser that can generate very short optical pulses with durations ranging from femtoseconds to picoseconds. These lasers are widely used for studying ultrafast and nonlinear optical phenomena, but they have also been proven to be applicable to various technological applications.Researchers at the California Institute of Technology have recently been exploring the ...

    2024-03-27
    Vedi traduzione
  • Shanghai Institute of Optics and Fine Mechanics has made progress in composite material based picosecond mirrors

    Recently, the High Power Laser Element Technology and Engineering Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, has made progress in the research of composite based picosecond mirrors. The related research results were published in Optics and Laser Technology under the title of "Hybrid Material Based Mirror Coatings for Picosed Laser Applications"....

    2024-07-12
    Vedi traduzione