Perspex has been heralded as one of the best acrylic glass materials in the world. Often sold under the Plexiglas or Lucite name, Perspex can resist abrasions and shocks quite well. It can also handle UV rays rather well. But in order to get it cut, you need more than just a standard blade. You need a powerful acrylic laser. Perspex cutting Sydney works best when you get a proper laser out for the job.
Creates a Smooth Surface
An acrylic laser will go through a Perspex surface and heat it to the point where its edges will become smooth. The carefully directed light from the laser will burn through the surface to where only the impacted area will melt off. This allows for a space to look smooth and crisp as it is cut apart. You can always use a separate sander if you want as well although that would be to take care of extremely minimal imperfections.
Acrylic Lasers Cut Thick
Many CNC laser cutting materials that work on acrylics can go through plenty of thick bodies. A laser can get through surfaces that are 25mm thick, for instance. This is perfect for when you have something that is a little larger to work with.
Vector Cutting and Engraving Both Work
With an acrylic laser cutter, you can handle both vector cutting and engraving tasks. Vector cutting entails the entire surface being cut through. Vector engraving involves surface cuts being made onto the material. This establishes an outline on a surface that is visible without having to take any large pieces off of a surface.
Works Without the Acrylic Shifting
While a typical machine for acrylic laser cutting Sydney needs can use a vacuum tube to keep a material from shifting, this tube may not be needed for Perspex. The dense body of the acrylic material allows for it to stay in its place even as the laser moves through it. This means that the acrylic surface will not be at risk of shifting around in a spot.
In summary, Perspex cutting Sydney plans should be easy to maintain and manage. It will be simple for you to get an acrylic laser to go through any Perspex surface you have.