Reliable bed tilt compensation (no more thumbscrews) 2.4 and 5 GHz Wi-Fi A 1080p camera (mounted higher for a better view) Compatibility with 280+ Marketplace materials Compatibility with S5 project files (no reslicing needed) And a whole lot more The UltiMaker S7 also includes quality of life improvements: We also reversed the front fan direction (fewer plastic hairs, less maintenance), made the print core door magnets stronger, and add a sensor that helps avoid flooding. This effectively makes it much harder to not achieve a perfect first layer, improving overall print success. The re-engineered print head has an inductive sensor which reduces noise when probing the build plate. Along with that, 4 pins and 25 magnets make it easy to replace the flex plate perfectly – even with one hand. But we also don’t recommend using or adhesion structures for UltiMaker materials (except PC, ’s PC). Not only do you not need tools to pop a printed part off. A PEI-coated flexible steel build plate makes a big difference to productivity. The build stack has also been completely redesigned. To further enclose the build chamber the S7 only has one magnetically latched door. This filters the exhaust air of every print and also improves build temperature stability. It now includes an integrated Air Manager. The UltiMaker S7 is built on the success of the UltiMaker S5 and its design decisions were heavily based on feedback from customers. Liftedbuild KNIFE.3mf Liftedbuild PULL RING.3mf Liftedbuild CYLINDER.3mf Putting them down thinner also allows the interface to cool faster and so the "real" model doesn't tend to stick to the interface as well. I generally run them at 90% to make the supports weaker and easier to remove. One last comment.Your Support Flow and Support Interface Flow at 125% is really high. You don't have to do any of that of course, it's just another way to skin this cat. That part does have a couple of features around the base that really could use support, but they are so small that the support can't get in there. With the "Floor Distance" at 2X layer height the scarring from the support won't be as bad. I think it will just print better than way. The one in the attached project file was repaired with MS 3D Builder.) (BTW the cylinder had errors in the model. The vertical orientation will allow those fine features around the cylinder to have much better definition. Bed slinger printers can be rough on tall narrow objects so slowing down the accel on the Y axis softens the moves and keeps the print from being shaken loose and failing. I added some horizontal expansion to the support so the tip would be supported.īecause the cylinder object is so tall I've used "Search and Replace" to change the Y acceleration at layer 650. Each of those models really have different needs so I separated them each to their own file.įor the "knife" file I've done as AHoeben suggests and fixed the Support. I've attached the project file here as well as a few screenshots, and I'm taking a break from trying to figure this out for now. I'm unsure of what to do here, as most of the builds I'm interested in making require a complete round surface and it's just not feasible to print them on another side that's flat (if they even have one). I've tried using a raft, didn't fix it, and I have the drop models setting unchecked for all of the pieces as well as in my preferences. I've raised the model parts in this project file to a ridiculous height in an attempt to get it to lift it at all to where it's no longer clipping the bottom of the model. I'm using an Ender 3 v2 printer from creality. ![]() I *know* the settings are wrong on this, due to both being new at 3d printing and to my attempts to get this working at all. However, the models seem to be clipping below the build plate, causing any rounded edge to become entirely flat on the bottom part. These features come in handy in the case of aesthetic models, where surface finish and overall appearance are of prime importance.I'm new to 3d modeling/printing and grabbed a few things from thingiverse to print for myself. These changes translate to an improved print resolution and an overall increase in the 3D printing quality. Related: FDM 3D Printer Settings and What They Do The team has fine-tuned the Cura software with reduced jerk settings for Ultimaker 3D printers and improved combing paths for all the other 3D printers. ![]() Objects 3D printed with FDM 3D printers often have surface irregularities such as ghosting and ringing on the model's outer wall. While focusing on the top surface, the Ultimaker team has also considered the print quality on horizontal surfaces. Taking cues from the monotonic ordering setting in its previous version, Cura 4.12 promises to enhance the top layer surface quality and eliminate any scarring, lines, or imperfections on the model’s top surface. Another incremental change in the latest release of Cura is the improved overall surface quality.
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