It is impossible to make a general statement about the process of laser engraving or marking plastic materials, and this has to do with technical – mainly chemical – reasons. Aside from the base materials, the colors (pigments) and other additives (fillers, generic additives, and flame-retardant agents) play an important role in selecting the best laser for your needs. In general, it is necessary and highly recommended to carry out detailed tests on the plastic materials you wish to mark in order to be able to find the best solution to fit your needs. Here you can see a selection of plastic pieces that have been marked using LASIT’s laser engraving machines.
Laser marking of plastics
When engraving is carried out with a laser marker, a bit of the material is ablated from the surface of the component being treated. This marking effect can be obtained on almost all materials. Laser engraving is used especially with metals, plastics and ceramics. The laser beam penetrates the surface and removes a part of it, creating a depression in the area. Because the material is heated as it reacts to the air in the environment, there is often discoloration in the area that has been engraved and this makes the marked area all the more evident.
In the foaming process, the laser beam melts the plastic surface on a localized area and then creates small gas bubbles on the material after it cools down. The gas bubbles reflect light in a diffused way. Afterward, the gas that has accumulated inside increases the volume of the material, creating a sort of foamed plastic. The part that has been laser marked appears brighter than the area around it and appears to be upraised from the surface.
Laser carbonization always produces a darkening of the material that has been marked. Plastic bonds are broken and carbon is released during this process. The resulting discoloration ranges from gray to bluish gray to black. Carbonization is used on clear plastics and organic materials (paper, packaging, wood and leather), with a resulting chromatic effect that changes from clear to dark.
Plastics absorb the light from the laser. Color pigments (deriving from additives, colors, etc.) and carbon in plastics are destroyed and vaporize as a result of localized heating. At this point, you will see a color change and notice foaming. The carbon in the plastic oxidizes and produces CO2, which is released from the plastic forming a layer of foam. Depending on the composition of the material, the discoloration may be clearer or darker. The dark plastics turn white where they were marked while clear plastics turn gray or black.
What are the main advantages of laser marking and engraving plastic?
Many commercially used plastics can be marked and engraved with several different laser wavelengths and methods, depending on the type of plastic. The main advantages of laser marking and engraving plastic are as follows: in machining, there is no tool wear or vibration as it is a noncontact process; there is low heat input, which results in less distortion. Moreover, laser marking on plastics is an extremely quick and versatile process which gives permanent marks.
What are the advantages of plastics laser cutting?
Nowadays laser cutting of plastics finds many applications in industry mainly due to improved end product quality, relatively low cost and short processing time. Laser cutting gives a higher finishing to the end product as compared to conventional cutting methods. It may proceed in different directions in a plane and in space, which enables efficient cutting-out and trimming of shaped parts. The process is relatively easy to automate and it has good chances of adaptive control.
Why laser marking on plastic is better than the other marking technologies?
Laser technology has slowly replaced outdated ink marking technologies over the years, mostly as far as plastic materials are concerned. Today’s laser-markable plastics offer high contrast and, in many cases, a contrasting color rather than just black or white, which is essential in product traceability when it comes to imprinting greater amounts of data on ever-smaller plastic parts. Environmental issues are another driving force. Laser marking on plastic uses no inks or solvents, nor does it require the energy-intensive drying steps typical of ink-marking technologies.
Can any type of plastic material be laser processed?
Technically no. It is impossible to make a general statement about the process of laser engraving or marking plastic materials because of chemical reasons. This is the reason why LASIT offers a sample service in order to help the customer to choose the best laser solution depending on the particular type of plastic to be marked. We have provided the sampling room – only to realize tests – with a wide range of laser sources (fiber laser, UV laser, green light fiber, green light diode, CO2) for all customers needs.
Which is the best laser source to laser mark and engrave plastics?
The best laser source to laser mark and engrave plastics is the green laser. LASIT manufactures FlyAir Green which is a solid state laser (active material YVO4), with a pumping axial and duplication crystal of the laser beam inside the cavity, and also FiberFly Green which uses the same innovative technology of the FiberFly system (active fiber doped with Ytterbium) with the integration of a duplication crystal wavelength. These laser sources are ideal for marking opaque, translucent and transparent plastic materials.