How to Use Laser Marking on Metal Components

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Laser Marking on metal
Laser Marking on metal

If you’re wondering how to use laser marking on metal components, you’ve come to the right place. This process is typically used to add traceability features or codes to metal components. These features can be used in applications ranging from the electrical and electronics industries to medical technology and promotional materials. If you’re in the market for a new automotive part, consider laser marking. Not only does this process produce permanent, non-destructive markings, it’s also automated and can be done at high speed. If you are looking Laser Marking on Metal Components  for visit this website lasitlaser.es

LASIT is an expert in laser marking

LASIT is a leading supplier of laser marking systems for the automotive industry. Laser marking on metal components has several advantages over other non-permanent marking processes, including reduced maintenance, faster turn-around time, and high productivity. Their laser marking technology makes it possible to mark metal components in-process or after production. LASIT specializes in fiber laser marking and offers standard, picosecond, and MOPA lasers. They also offer UV laser marking solutions and green laser and CO2 lasers.

It can be automated

The laser marking process can be automated if the right software is used. The software allows the operator to reduce the time spent manually aligning the parts with the laser. Additionally, the software also minimizes the cost of fixtures. For example, the software used by FOBA MarkUS marks metal components using an integrated camera. The camera provides an accurate image that the marking software sends to the laser, enabling the process to be automated and repeatable.

It can be processed at high speeds

Laser marking is an automated process that leaves permanent traces on a variety of materials. From titanium to aluminum, plastics to steel, laser marking can mark parts, serial numbers, and other machine-readable data. Its high-speed operation allows it to be performed quickly and reliably, regardless of materials used. To understand how laser marking works, it helps to learn about its effects. Below are several of the most common uses of laser marking.

It is a non-contact method of permanently marking metals

Laser marking on metal components is a noncontact process that produces permanent marks by heating a small area to a melting point. During the marking process, the laser heat penetrates 20 to 30 um into the metal surface, resulting in a color change. Laser marking on metals is especially good for abrasive surfaces. The heat also produces no byproducts, making it an efficient method of marking metals.

It can be used for 2D barcodes

The advantages of using 2D codes over traditional barcodes include improved accuracy and fewer labour hours. More finished products and individual parts are subject to detailed traceability. This technology can mark both parts and products with 2D codes with high-quality marking. Laser marking on metal components can provide stable 2D code reading. In addition to barcodes, 2D codes can also store historic data.

It can create various colors

Different types of lasers are used for different purposes, ranging from identifying parts to creating logos and other graphics. The YAG laser can mark black materials and can produce a high contrast color mark. The YAG laser can mark acetal resin. Other types of lasers use different colors, and each can produce a distinctly different result. To find out which type of laser is best for your project, read on.

It can create different designs

With the help of a laser, you can apply different designs, names, or individual characteristics to a variety of materials, including metals. In a brief manual, we will explain the different types of laser systems, the materials they mark, and how they work. You will also discover the safety and ergonomic benefits of TRUMPF laser marking systems. In addition to these benefits, laser marking is an excellent option for medical device manufacturing.

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