Español

Laser cladding method improves the surface performance of parts

838
2023-12-28 13:57:11
Ver traducción

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

Recomendaciones relacionadas
  • Hyperspectral imaging technology: a comprehensive guide from principles to applications

    Hyperspectral imaging technology is a highly anticipated innovation in the field of science and engineering today. It not only integrates spectroscopy and imaging technology, but also has wide applications in various industries and research fields. This article will delve into the basic principles, working mechanisms, and applications of hyperspectral imaging in different fields.Introduction to hy...

    2024-04-16
    Ver traducción
  • Scientists demonstrate effective fusion "spark plugs" in groundbreaking experiments

    Researchers from the Laser Energy Laboratory at the University of Rochester led the experiment and demonstrated an efficient "spark plug" for direct driving of inertial confinement fusion. In two studies published in the journal Nature Physics, the team shared their findings and detailed the potential to expand these methods with the aim of successful nuclear fusion in future facilities.LLE is the...

    2024-03-04
    Ver traducción
  • Laser giant seeks $100 million financing for $422 million debt restructuring

    On August 6th local time, Luminar, a leading publicly traded company in the field of LiDAR, announced a $422 million debt restructuring and raised $100 million in new capital. This measure marks Luminar taking solid steps in optimizing its capital structure and enhancing its financial stability.In early May this year, this laser radar manufacturer released an open letter disclosing a major strateg...

    2024-08-09
    Ver traducción
  • Overview of ultrafast laser micro nano manufacturing technology: material processing, surface/interface control, and device manufacturing

    Researchers from Tsinghua University have summarized the research on ultrafast laser micro nano manufacturing technology, including material processing, surface/interface control, and device manufacturing. The relevant review titled "A Review of Ultrafast Laser Micro/Nano Fabric: Material Processing, Surface/Interface Control, and Device Fabric" was published in Nano Research.Ultra fast laser proc...

    2024-08-06
    Ver traducción
  • Photovoltaic converters for power transmission systems

    Scientists from the University of Hahn in Spain and the University of Santiago de Compostela conducted research to determine the most suitable semiconductor materials for high-power light transmission in terrestrial and underwater environments.HPOT, also known as laser power transfer, is a method of transmitting continuous power to a remote system using a monochromatic light source through an opti...

    2023-12-29
    Ver traducción