Português

Laser cladding method improves the surface performance of parts

838
2023-12-28 13:57:11
Ver tradução

Laser cladding, also known as laser metal deposition, is a process of depositing one material onto another.
When the laser beam scans the target surface, metal powder or wire flow is fed into the molten pool formed by the laser beam, thereby producing the required material coating.

The laser cladding method improves the surface properties of the parts, such as wear resistance, and allows for the repair of damaged or worn surfaces.
One of the most precise welding procedures is used to establish this mechanical connection between the substrate and layer.

Laser cladding has improved the performance of industrial products by producing protective layers to prevent wear and corrosion.

Engineers can use universal base metal alloys to design parts, which helps protect natural resources.
Then, the components are locally laser melted with high alloy materials to provide appropriate performance characteristics.

Laser cladding is also a method used to restore and remanufacture high-value components into their original shape.

In addition to the shape of fixed parts, selecting additive manufacturing materials with better wear characteristics than the original components can also improve service life and performance.

Source: Laser Net

Recomendações relacionadas
  • Progress in Theoretical Research on the Mechanism of Liquid Terahertz Wave Generation by Precision Measurement Institute

    Terahertz waves have significant application value in communication and imaging. The nonlinear interaction between strong field ultrafast laser and matter is one of the important ways to generate terahertz waves. The experimental and theoretical research related to terahertz generation media such as plasma, gas, and crystal is relatively sufficient. However, liquid water is a strong absorbing medi...

    2024-03-22
    Ver tradução
  • Laser Photonics cleaning technology simplifies the removal of biofilms in industrial environments

    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 surface...

    2023-09-20
    Ver tradução
  • Manufacturing customized micro lenses with optical smooth surfaces using fuzzy tomography technology

    Additive manufacturing, also known as 3D printing, has completely changed many industries with its speed, flexibility, and unparalleled design freedom. However, previous attempts to manufacture high-quality optical components using additive manufacturing methods often encountered a series of obstacles. Now, researchers from the National Research Council of Canada have turned to fuzzy tomography (a...

    2024-05-30
    Ver tradução
  • The company has made key breakthroughs in the development of laser micromachining systems

    3D-Micromac AG, a provider of laser micromachining systems, has announced new advances in laser micromachining solutions for magnetic sensors, micro-leds, manufactured power devices and advanced packaging of semiconductors.Since the first working laser came out more than 60 years ago, lasers have been widely used in the industrial market. Uwe Wagner, CEO of 3D-Mircomac, said: "In the semic...

    2023-08-04
    Ver tradução
  • Observation of nanoscale behavior of light driven polymers using combination microscopy technology

    Expanding our scientific understanding often boils down to observing what is happening as closely as possible. Now, researchers from Japan have observed the nanoscale behavior of azo polymer films and triggered them with lasers.In a study published in Nano Express last month, researchers at Osaka University used a combination of cutting-edge scanning high-speed atomic force microscopy and optical ...

    2024-03-12
    Ver tradução