We make an experiment about the relationship between part orientation and surface quality. Besides, part orientation impacts surface quality due to the process of slicing and printing the part in increments in the Z direction. Sudden changes of the model structure not only affects model integrity, but it will also typically result in visible surface lines. Sudden changes of the model structure from a small cross-section to a large cross section area will lead to severe volumetric changes of layers as the volume of 3D resin in each layer highly affects the shrinkage of each cured layer. When modifying this setting, you should take both print quality and print time into account.īy orientating the part in different directions, there is a significant difference in the print quality. The default lift speed is 65 mm/min in CHITUBOX. But if reducing the speed too much, the printing time will be increased. If the lift speed is too fast, the model will be broken and the support may also be damaged due to the tug of war between the build plate and the FEP film in the bottom of the vat. Lift speed refers to the speed at which the build plate is lifted from the resin vat between layers. Troubleshooting! Prints aren’t sticking to the build plate! Generally, the longer the bottom exposure time, the more tightly the raft will stick to the build plate. Increase the exposure time if the raft won't stick to the build plate. The default bottom exposure time is 50 seconds in CHITUBOX. And this setting can be modified based on the actual situations.Īs for bottom exposure time, it’s recommended to make it around 8-12 times longer than your normal layer cure time. For most resins, this exposure time is enough. Different SLA/DLP/LCD 3D printers have different cure times for resins. The print quality for each 3D resin is also affected by the light power and the curing or exposure time. Exposure Time is the amount of time that the light source will expose each layer during printing. If you have no idea how to choose the right one, there’s a tried-and-true technique to just start your trying with the layer height of 50 μm (0.05mm). You can adjust this setting in your slicing tool like CHITUBOX based on the actual situation of your SLA/DLP/LCD 3D printer. Layer Thickness is measured in fractions of a millimeter (mm), and are often given in microns(µm). Generally, the min layer height of SLA/DLP/LCD 3D printers is 25 µm (0.025mm) layer height and the max is 100 µm (0.1mm) layer height. In general, according to technological differences of 3D printers, they generate different layer heights as some may generate lower layer height than others. Left: 100µm layer thickness Right: 50µm layer thickness While relatively, with a thinner layer height you will increase the quality of the print, leading to a smoother surface and more detail visible in the Z-direction (height) of the model. The thinner the layer thickness, the longer it takes to make a 3D printed object of a given height. The number of layers required to create an object determines the printing speed and thus the printing time required. We can improve the quality of 3D printing by just adjusting the following settings.Īs the name implies, layer height is the exact height of each cured layer. Layer thickness not only affects the speed (printing time), but aslo the quality of each print. In fact, the quality of 3D printing has a lot to do with the equipment, materials and slicer. Although this technology has so many advantages, the 3D models may still be very rough if you are not familiar with slicing, printing skills, etc. Stereolithography (SLA/DLP/LCD) 3D printing is one of the most popular 3D printing technologies which can create prototypes with very high quality, fine features (thin walls, sharp corners, etc.) and complex geometric shapes. 5 Settings to Improve Your SLA/DLP/LCD 3D Print Quality
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