What Is the Maximum Cutting Depth the Atomstack Laser Machine Can Achieve?

Maximum Cutting Depth the Atomstack

Despite being a very affordable laser cutter, the Atomstack Laser Machine is capable of achieving a good cutting depth. This is largely due to the fact that it uses a diode laser module which is more efficient at keeping the beam of energy focused for longer periods of time. In addition to this, the module is also designed with an air assist feature which helps to keep the focus of the beam clear from contamination. With a spot size of 0.01mm, the Atomstack Laser Machine is able to reproduce fine details perfectly.

This laser engraver can work on a variety of materials including wood, acrylic, leather, stone, and glass. It is very easy to use and is compatible with its own specialized software called Retina Engrave V3.0 which allows users to design advanced vector trajectories. Additionally, it supports offline engraving which allows you to operate the laser without the need for an internet connection.

The Atomstack Laser Machine comes with a number of accessories including a dust-free cloth, tool kit, brush, wire tie, and fixed focus film. It is very lightweight which makes it easy to move around and carry. Additionally, it has a very simple assembly process which can be completed in about 20 minutes. The product manual that is sent with the laser engraver has detailed instructions on how to install and operate it.

What Is the Maximum Cutting Depth the Atomstack Laser Machine Can Achieve?

In addition to the controller module that is fixed to the frame of the machine, it has a USB port which can be used to connect it to a computer for uploading files. It is also capable of working offline thanks to the built-in ESP32 chip that allows it to be operated independently from a PC. This allows users to create gcode in either LaserGRBL or Lightburn, save it to the SD card, and then run the gcode with the touch of a button on the touchscreen controller.

While the Atomstack Laser Machine is capable at cutting through 1520mm thick wood and acrylic materials, it cannot cut through metals. This is because a metal surface absorbs the energy of the laser beam and heats up. The heat then causes the material to warp and melt, which is why a metal engraver would be more suitable for those who want to do heavier-duty cuts.

When it comes to calculating the maximum cutting depth, it is important to take the kerf into consideration. The kerf is the amount of material that the laser removes during the cutting process. It can be calculated by measuring down and across from the laser’s origin on your scrap material. Then, using guides in your CAD file to account for this distance when designing your component.

Another factor to consider is the maximum transmission speed of the laser. Atomstack has a maximum transmission speed of 137.7 ipm (3,500 mm/min) which is much higher than other competing products in this price range. This high transmission speed helps to ensure that your components are not only made quickly and efficiently, but they are also accurate in their dimensions.

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