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Do you need a stencil? An insulation sheet? A seal or protective cover? Or a flexible lampshade? In short, a film, cut according to your own design? In this blog, you can read which films you can have laser cut and which are suitable for your application.
We are talking about thin plastics (100 microns to about 1mm) and other "nonmetals" that you can easily bend and sometimes fold without breaking. Flexibility varies by material but depends mainly on thickness. The thinner a material, the easier you can bend it. Therefore, as long as they are very thin, you can sometimes consider rigid materials such as acrylic as films.
Laser cutting allows you to have small details and complex shapes cut into foils. The start-up costs are low so it is also interesting for prototyping and one-off projects. The cutting width of the laser is about 0.1mm so you can make sharp corners. Since laser cutting is a non-contact technique, no force is exerted on the film during cutting. Therefore, even small details of your design remain intact. Finally, there is a minimal "heat affected zone" (the stretch along the edge where the material is affected by the laser). This means that the edges remain neat and strong. All in all, this makes it perfectly possible to make details on the order of 1mm and sometimes less.
Laser cutting a foil according to your design is very easy. With your digital design, you can request a price from us in just a few clicks and, if desired, order online. So you never have to wait for a quote and you can quickly see what design adjustments will do to the price. When you're ready to order, you can do it yourself online.
TLDR; from about 20 you will have a custom laser cut film in your home. In quantity the price can drop to 0.05 per part.
The price for laser cutting consists of:
The best way to find out the price for your design is to upload a (mockup) drawing. You'll see the price immediately and you can also compare materials. Uploading is free and you're not stuck with anything.
As a rule, single pieces, prototypes and small projects of laser-cut films thus come out at 20-50depending on the size.
Series prices vary, but small foil parts can be ordered (in quantity of several hundred or thousands) for as little as 0.05.
This makes laser cutting of foils ideal for projects, research and prototypes. And also for products that are frequently modified, because with laser cutting you are not stuck with a mold or die.
Larger quantity or volume production involves more than a prototype. After all, everything must be right and stay right; tolerances, quality of workmanship, but often also packaging and delivery schedule.
We see more and more customers with a production demand choosing to volume production produce in smaller quantities, and preferably close by, as opposed to mass production in low-wage countries. On the one hand, this is made possible by increasingly inexpensive digital production techniques such as laser cutting and 3D printing. On the other hand, it offers advantages because, as a buyer, you run less risk, can switch more easily between manufacturers, and can make more frequent adjustments to your design.
To further increase quality and consistency of laser cutting in series, we have developed a special production line for volume production. This allows us to offer even higher quality at low cost.
Die-cutting is a technique in which a die-cutting jig is used to cut and sometimes shape materials.
To die-cut, a die-cutting template must first be made. This creates a one-time high start-up cost. Also, you cannot make as small details with die-cutting.
A major advantage of die-cutting is that once the mold is paid for, the cost per part is very low. This makes it ideally suited for mass production. Die-cutting is therefore the best choice for projects with very large runs. But also when, for example, materials are needed that contain toxic components such as PVC, and with thermosets such as polycarbonate that cannot be laser cut properly or safely.
In short, die-cutting is especially a good option for mature designs in large quantity.
Foils are used by our customers in engineering, product design, and remarkably in the renewable energy sector. But you can also do a lot with foils in creative projects, hobby and education. In industry, for example, foils are used as cell separators, acting as an insulation layer between cells in battery systems to prevent short circuits. Or they are used to make seals and gaskets, which provide an airtight seal or fill spaces in various mechanical and industrial applications.
There are also many foils that you can make good stencils with. Lasered stencils can be enormously detailed and complex.
Plastic film membranes are used for filtration, separation and protection of various materials and systems. In addition, films serve as protective layers in devices, where they protect sensitive components from damage and external influences.
Finally, the materials below are also applied as protective caps and windows, where they serve as transparent and protective layers for various products and systems.
A thin, strong and transparent film with good insulating properties.
We have this film in 100, 250 and 500 micron thicknesses making it the thinnest film you can have laser cut. Due to the small thickness tolerance, this film lends itself to filling spaces, for example. But also as a protective layer and as an insulation sheet. The laser cut is neat and there is little melting along the edge. As a result, very small details in the order of 1mm are possible. You can therefore also use this material very well for detailed stencils.
Want more information on Laser Cutting Protection Film Supplier? Feel free to contact us.
This is a flexible and tough plastic that can be bent easily. It has a textured surface on one side that makes it scratch resistant (you can't see scratches because of the texture). This makes laser-cut polypropylene film ideal for products that are often touched and seen. For example, it is used as a faceplate for appliances, installations in public spaces, but also sometimes as an intermediate layer of insulation in appliances. PP is relatively inexpensive.
The cutting edges can have a small melting edge of 0.1-0.2mm. If you want it completely without a melting edge, then choose laser cutting with protective film. If you have it cut without protective film, you can easily wipe off any laser marks with a damp cloth.
PP film is available in white and black at 0.8 and 1.2mm thickness.
Polyester is transparent and impact-resistant. It is also inexpensive, strong and flexible. The windows of our splash screens, for example, are made of polyester. It is used in model making for windows, although precision acrylic is actually a better choice for that. Lasered polyester comes standard with protective film on two sides. You can make reasonably small details in it, but pieces that are too thin can warp when cut. If you fold polyester along a ruler (aka "cold forming") it will stay in position. So with that, you can easily make 3D shapes. One disadvantage of polyester is that it is relatively soft and therefore prone to scratching.
Thin polystyrene is flexible and soft. It has a matte surface. It is fine to cut by hand and easy to glue. This makes it suitable for model making and maquette work.
One disadvantage is that it is somewhat weaker and stains are difficult to remove.
POM. In a word; Strong. POM is a high-quality plastic and one of our best sellers. It can be considered flexible, but it is considerably stiffer (less pliable) than polypropylene, for example. Its surface is smooth and has a slightly waxy feel. With excellent sliding properties and wear resistance, POM is a solution for many mechanical applications. It is, however, a more expensive option than pp, for example. It is difficult to glue POM (but double-sided adhesive film will work). Cutting with a Stanley knife is also not possible.
Actually, precision acrylate does not fall under the category of films, but it is an excellent choice if you need a super smooth surface, small details and a transparent material. Compared to PETG, you can make much smaller details in precision acrylic. Dates or slots of a millimeter or smaller are perfectly possible. It is crystal clear, UV resistant and comes with protective film on both sides. However, be careful because acrylic is fragile, especially with small details. It can also scratch easily, so treatment with care is required. The thickness tolerance of precision acrylic is better than regular acrylic.
Finally, we would like to mention a special material: Laserboard. It is a composite material of paper soaked in resin. This makes it waterproof, strong and flexible. What distinguishes laserboard from plastics is that it does not deform or melt when heated. This means that you can laser cut even the tiniest details (such as hole grids with only a few tenths of millimeters between them) in laser board without it deforming due to heat. The surface has a slightly fibrous texture.
You can optionally have this foil applied to your laser cut parts to make it self-adhesive. But did you know you can also have it lasered separately?
It is a very thin, semi-transparent plastic film with high adhesive strength. You receive it flat, with a paper protective layer on both sides. So you can easily apply it to your own products or parts.
Might also be of interest:
Silicone laser cutting
PE foam laser cutting
Neoprene laser cutting
Gasket paper laser cutting
Still laser cutting a different film?
We have extensive experience with foils laser cutting and in some cases can order specialty foils for you, or you can provide them yourself to be laser cut. In that case, please get in touch. Some examples are:
Have questions or want to discuss what is the best choice for your application? Contact us and we will be happy to help!
For more information, please visit protective tape for aluminium.