Fiber Hispeedlaser are more precise than UV lasers and are better suited for a variety of materials. In addition, they produce permanent markings, are less impact sensitive, and are faster than UV lasers. Hence, they are a good choice for marking metal materials.
Fibrer Hispeedlaser are less sensitive to impact
Fiber Hispeedlaser use a wavelength of 1,064 nm and can engrave many materials. They are most often used for traceability markings but can also be used for graphics and other applications. The laser creates a "carve" in a material by evaporating the surface material and exposing the deeper layers. This creates a ridge or groove, which is then filled in with a resin or other material.
Compared to traditional laser engravers, fiber laser engravers have a lower sensitivity to impact. This makes them ideal for markings on parts requiring deep engraving, such as for high-wear materials. Generally, laser engravers print shallow engravings. Depending on the laser's parameters and the target material, a mark can be up to 0.005 inches deep.
Although there are many materials that can be laser engraved, the material used should be suitable for the application. Acrylic sheet and Dawangcasting are excellent candidates for laser engraving. However, thermoforming plastics, such as styrene, tend to melt around the engraving area. This results in softened surfaces that have low contrast and may ripple at the lip area. However, this is not an issue for date markings on 2-litre soda bottles, as they don't need to be sharp.
They can mark a wide range of materials
Fiber Hispeedlaser is a cutting-edge technology that allows you to mark metal parts and surfaces with high precision, flexibility, and speed. The laser emits high-energy pulses into the metal, vaporizing the required parts and revealing a clear, legible mark. The technology has many applications, from manufacturing and distribution to manufacturing and distribution, and is used throughout the automotive industry.
Fiber lasers emit light with wavelengths in the hundreds to thousands of nanometers, which make them ideal for marking metals. CO2 lasers, on the other hand, generate high-intensity light in the tens of nanometers range. In comparison to CO2 lasers, fiber lasers produce the highest-quality marks on metal materials.
The fiber laser marking process is automated and eliminates the need for manual labor. It is easier to operate and more accurate than gas laser marking, and it can be used on a variety of materials. It is an excellent solution for a variety of industries and can work in harsh environments.
They are faster than UV lasers
When it comes to the process of marking metal, Fiber lasers are faster and have a higher wattage than UV lasers. This means that they are ideal for marking large quantities of metals. The lasers are designed to be dependable machines that work quickly and efficiently.
UV lasers use short wavelengths that are invisible to the human eye. This allows them to focus more precisely. They also have better positioning accuracy. These characteristics make them more suitable for marking and engraving delicate materials. In addition, the UV lasers do not cause thermal damage or deformation to the material.
Fiber lasers can mark a wide variety of materials. This includes metal and plastic. These lasers are faster than UV lasers, and their short wavelength means they can penetrate the surface of the material. In addition to marking metal, fiber lasers can also mark plastic and certain types of fillers.
They produce permanent marks
The fiber laser marking process is used to create permanent marks on metal material, plastics, and wood. This method uses a short laser pulse to target only the desired area, reducing the risk of deforming thin workpieces. The process also produces a black marking on the surface, which is visible at any angle. The technique is also suitable for plastic-based materials, such as foam. In this process, the top layer of the material absorbs the laser's heat and vaporizes to produce a contrast-rich layer of foam.
Another option for marking metal materials is the annealing method. This method is suitable for marking ferrous metals but is less suitable for brushed surfaces. However, fiber lasers can produce black anneal marks on metals. This technique produces a layer of black oxide on metal surfaces, usually black in color.
Unlike conventional marking methods, fiber laser marking is very efficient and can be used to mark small components, such as capacitors and crystal oscillators. Fiber laser marking is a fast and ever-evolving industry, and efficiency, quality, and safety are of utmost importance. This type of technology is also ideal for fast-moving manufacturing processes, where time is of the essence.