If you need a clean, permanent mark on metal components, laser marking is an excellent solution. The non-contact process produces highly-resolution marks without any post-processing or pre-processing. This process is highly durable and corrosion-resistant, and it leaves no residue on the metal surface. Laser marking on metal components is simple to use, making it an excellent solution for product information and functional labels.  If you are looking for laser marking visit this website lasit.it

Fiber Lasers Produce Shades of Gray

Compared to other laser-based marking techniques, Fiber Lasers are ideal for metals. The fiber laser’s versatility, speed, and flexibility make it a popular choice for marking metal components. Whether you need to add serial numbers or other types of internal coding, Fiber Lasers can mark almost anything with high-contrast, legible markings. Listed below are some of the benefits of this marking technique.

CO2 Lasers Produce Black Marks

When CO2 lasers create black marks on metal components, the result is a sparkle-like mark. This mark is permanent, and the marks are readable, despite their low contrast. The process is outlined in military marking standards and specifications. Even the United States Department of Defense has adopted the CO2 laser method. Here are some of the benefits of this method. Firstly, it can mark steel without removing any metal material, leaving a high-contrast mark on the metal.

MOPA Lasers Produce High-contrast Marks

MOPA lasers use high-contrast marking to emblazon IMEI and barcode numbers onto anodized aluminum. Because of its adjustable pulse width, it can mark a variety of materials without causing too much surface heat. It can even mark stainless steel, which is typically black or anodized. In addition to metal, MOPA lasers can also mark plastics usglobalworld.

CO2 Lasers Mark Plastic

CO2 lasers are effective for marking metal components without removing any of the metal material. They leave a raised, durable mark. CO2 lasers are able to mark a wide variety of materials, including metals, woods, acrylics, and natural stones. Unlike other laser marking methods, CO2 lasers are not harmful to the integrity of the parts that they mark. For this reason, CO2 lasers are an excellent choice for the marking of metal components.

CO2 Lasers Mark Titanium

CO2 lasers are effective at marking titanium on metal components. These lasers deliver a precise, uniform mark on titanium without removing any materials. Vanadate laser marking machines have excellent peak powers, depth of focus, and beam quality. They are especially useful in fine-marking temperature-sensitive materials such as titanium. Vanadate lasers also deliver superior beam stability, power, and speed for cold-marking applications. They are also effective at marking delicate metals with low absorption ratios.

CO2 Lasers Mark Aluminum

CO2 lasers can mark metal components with a sparkle-like pattern. The process does not remove any metal material, and the mark will not affect the tolerance or strength of the piece. The CO2 laser does not require any special software to operate. The lasers can mark both coated and uncoated metals. If you wish to have your metal components laser-marked, you will need to make sure that you apply a pre-treatment to them first.

CO2 Lasers Mark Stainless Steel

CO2 lasers are used to mark stainless steel. There are many advantages to this method over other methods of marking metal. Stainless steel is particularly resistant to abrasion, so engraving creates a more durable mark. Stainless steel is suitable for laser annealing, too. For more information, read on. This article will explain the various methods of marking stainless steel and which one is the most suitable for your needs.