![]() Just send an email to Include the following information: Getting Your Print on the Queue via Email (Users) When your print is done, the managers will email you to let you know, and you can drop by and pick it up.Your print will be printed when its turn comes.If you are submitting in person, you will have the opportunity to pay as we add your print to the queue.If you submitted via email, you will be sent an email by the manager asking you to pay.Pay for the print and have a manager approve that you are paid.If you are at the EPL in person, have a manager help you slice the model and calculate the resulting price.stl file along with your preferences to Or add the print to the queue manually Get this print added to the 3D print queue.Create a 3D model of your print, and export it as an.In general, 3D printing at the EPL works like this All 3D prints must be paid for before we will print them! More on this later in the guideįor material, type, and price please refer to the 3D Material Guide General Procedure Overview (Managers, Users).You should have a good idea of which printer you want to print it on, and your settings preferences (color, material type, quality, etc).You will need to know the approximate dimensions of your part or widget (i.e.Before you begin, you will need a few things. Before You Start (Managers, Users)ĭo you have a 3D print you want to have made? This guide will help you. Some steps apply to only one or the other. So as you can see G-codes can do both That is control the projection of an image, or control a cutter path, but the cutter path calculation is significantly more complicated than simply moving the z plane and displaying an image at each layer, I guess that might be a big factor as to why Preform is slower - its got a much more complex and processor intensive task to do than the slice and control software on your budget printer.This guide is written both for Managers and for users of the EPL. If we look at the G-code to move through a tool path (that could be a laser path) of a simple ellipse of say 100 x 60, then we end up with this: G-code (and M-Code) is simply code to control a machine, that includes many commands in addition to calling a cutter pathįor the purpose of this explanation I have ignored the control system used by Formlabs - it may well be a proprietary set of instructions that have moved away from traditional codes of machine control, but the fundamental principles will be the same. Have a look at a complete layer sequence by viewing the g-code, it something like below The G-Code used in Cura for your type of printer is very simple - no tool paths, nothing complicated. generating G-Code, so I loaded the same file into Cura, which took 561 seconds (9.5 minutes) to generate the G-Code. Now I agree that there’s a big difference between generating images, vs. I also sliced the same model with Slic3r at the same resolution and it generated the same number of slices, 2866, but only took 5 minutes to generate the slices. By the time it was done sending the data, the print was already at layer 69. 1:42 hour later it was done slicing the model. So Preform began to send the data to the printer, and the printer began its first layer about 45 seconds after I clicked print. I selected 0.025 layer height, and that resulted in a 2866 layer print, which would take 13:08 hours to print. Today I started a print of an STL which had the supports already generated, so all I needed to do is send it to the printer. ![]() It’s one of the faster programs at generating supports, but slicing not so much. I’m not sure if this still hold true of the latest versions of Preform, but today I just realized how slow Preform is at doing the actual slicing. ![]()
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