Hemera heat break interfaces with any E3D heater block design Hemera is modular and versatile, ready to be installed on almost any 3D printerĮ3D set out to change everything about the direct-drive extruder ideal with Hemera, and to that end that didn't stop with just the drive system. The Hemera enables all of these much-loved hotend designs to now function with ultra-precise dual-drive extrusion for higher performance than ever before. The new Hemera heat break interfaces perfectly with these and also the E3D SuperVolcano - a massive heater block with nozzles up to 1.4mm for huge production printing. V6 is a compact heater block with nozzle sizes all the way down to 0.15mm to extreme high detail FFF 3D printing projects, while Volcano takes advantage of a larger heater block for a longer melt zone and therefore larger nozzles up to 1.2mm for higher speed printing of larger, stronger parts. New heat break, same great E3D hotend ecosystemĮ3D has spent years developing an entire ecosystem of hotend components that make it possible to utilize 3D printing for almost any production workflow. Hemera eliminates each and every spot where other extruder designs see these issues. Flexible materials will find any and all opening in the filament path to wander out and ruin prints. This not only enables ultra-fast printing speeds but also improves performance during retractions and overall usage of flexible materials like MatterHackers PRO Series Flex. ![]() Material is pulled from your spool with dual-drive hobbed gears and fed immediately into the top of the v6-ecosystem compatible heat break. ![]() The Hemera hotend and extruder from E3D achieves this goal with one of the shortest and most well-constrained filament paths ever produced for 3D printers. No matter what step of the production process you find yourself utilizing desktop additive manufacturing for, we can all agree that the ability to print faster is better. I appreciate any insight you can offer.Hemera lets you print faster than ever before with rigid and flexible materials alikeģD printing is a revolutionary and ever-evolving technology that is changing the nature of production for people around the world all the way from initial prototypes to final production of end-use parts. I need someone to either teach me Marlin or show me what I'm doing wrong when building the firmware. I've even written a review/guide that thoroughly goes over the entire process of upgrading the hotend. I have a basic understanding of how Visual Studio works and PlatformIO. I've entered and tried about 20 different configurations without going too far outside the box for fear of ruining my printer. I measured out the offset and it's 33mm nozzle to bltouch and about 3mm forward and 0 on height. I'm using this mount which closely resembles the stock mount. I have probably built and uploaded 50 to 60 different versions, in between each reverting back to the original base tinymachines Hemera firmware. Instead of changing my setup I looked into compiling a fresh version of the mainboard firmware. ![]() So I looked around and the default seems to be a right mount for the probe. It seemed to work ok however the probe moved too far left and almost smacked off. I upgraded my hotend from stock to a Hemera DD used tinymachines firmware from github for mainboard and screen flashes. I have a problem and I can't seem to figure out why. First I want to say thank you to those who have helped me so far on Discord and Facebook.
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