- 46
- 129 255
Rene K. Mueller
Registrace 16. 01. 2010
Particle Life: Searching for Associations
While trying Particle Life concept to create parametric periodic infill geometries, I stumbled on these settings, 3 types of particles, and their relations - looks like artificial life, coming and going.
For more information on Particle Life, see czcams.com/video/Z_zmZ23grXE/video.html and czcams.com/video/p4YirERTVF0/video.html
For more information on Particle Life, see czcams.com/video/Z_zmZ23grXE/video.html and czcams.com/video/p4YirERTVF0/video.html
zhlédnutí: 145
Video
Tech Meets Art - Robot Kinematics
zhlédnutí 473Před rokem
Just testing forward kinematics of 6-dof with OpenSCAD. ibot6 test 002 2022-10-03
Non-Planar 3D Printing: Slicing with Non-Planar Geometries (Reupload)
zhlédnutí 9KPřed 2 lety
(Reupload) Featuring slicing with non-planar geometries, with an example of a wave-like shape slicing a simple 20mm cube. More information at xyzdims.com/UniversalSlicing 2022/02/20, updated 2022/04/01 Reuploaded/updated to keep consistent wording with blog-post and Universal Slicing page. Timecodes: 0:00 Intro 0:05 20mm cube sliced with wave-like geometry 0:14 Slicing non-planar slices with wa...
RotBot (4-axis) - Rotating Tilted Nozzle, AMX Expo 2021 Lucerne
zhlédnutí 7KPřed 2 lety
This is the only "RotBot" in existence as I was told (2021/09). More infos at www.zhaw.ch/en/about-us/news/news-releases/news-detail/event-news/upgrade-fuer-den-3d-drucker-spart-zeit-und-stuetzmaterial/ and xyzdims.com/2021/01/27/3d-printing-rotating-tilted-nozzle-option/ See also the short presentation at czcams.com/video/7-Xz3MUOEAM/video.html (german speaking) by Michael Wuethrich, explainin...
RotBot - Neuartiger Drucker für das FDM-Verfahren, AMX Expo 2021 Luzern
zhlédnutí 867Před 2 lety
Vortrag von Michael Wüthrich, Dozent Entwicklung mechatronischer Produkte, ZHAW www.visit.am-expo.ch/de/e/rotbot-neuartiger-drucker-fuer-das-fdm-verfahren 2021/09/14
Spherical Parallel Manipulator (SPM) 2 DOF Inverse Kinematics Simulation
zhlédnutí 10KPřed 2 lety
A short Inverse Kinematics simulation: compensating with X, Y & Z while rotating A(Xrot) B(Yrot) and keeping the nozzle tip in place. 2021/08/25
Spherical Parallel Manipulator 2 DOF (SPM 2D 30.15.6)
zhlédnutí 11KPřed 2 lety
SPM 2 DOF printhead (Xrotation & Yrotation), test motions. 2021/08/25
PAX (5-axis) 3D Printhead Inverse Kinematics Demo 2
zhlédnutí 14KPřed 2 lety
Inverse Kinematics: nozzle tip stays in place vs bed, Zrot(A) = -180°..180°, Trot(B) = 0°..135°; full possible range of "PAX DH 135", PAX: Penta Axis, DH: Dual Hinge, 135: tilt range). Following G-code is executed: ``` G1 X170 Y120 G1 Z2 G1 A180 B45 G1 A-180 G1 A0 B0 G1 Z35 G1 B90 G1 A180 G1 A-180 G1 B45 G1 A180 G1 A0 B0 G1 Z65 G1 B135 G1 A-180 G1 A180 G1 A0 B0 G1 Z0 ``` 2021/07/15
PAX (5-axis) 3D Printhead Inverse Kinematics Demo
zhlédnutí 9KPřed 2 lety
Following G-code is executed: ``` G1 X170 Y120 G1 Z2 G1 A180 B45 G1 A-180 G1 A0 B0 G1 Z35 G1 B90 G1 A180 G1 A-180 G1 B45 G1 A180 G1 A0 B0 ``` More info at xyzdims.com/2021/02/08/3d-printing-penta-axis-pax-5-axis-printing-option/ 2021/07/14
PAX (5-axis) 3D Printhead printing at 45° tilt mode (like belt printer)
zhlédnutí 10KPřed 2 lety
Brief precision test for Penta Axis (PAX) 5-axis printhead printing at non-Z-rotating but 45° tilted mode, sliced with Slicer4RTN. More infos at xyzdims.com
PAX (5-axis) 3D Printhead with Part Cooler & LED Strip Motion Test (Wider View)
zhlédnutí 7KPřed 3 lety
More infos at xyzdims.com/2021/02/08/3d-printing-penta-axis-pax-5-axis-printing-option/ 2021/05/17
PAX (5-axis) Printhead: Stepper Interpolation On/Off (Duet 3 Mini 5+ TMC 2209)
zhlédnutí 3,8KPřed 3 lety
Comparing interpolation off vs interpolation on, with Duet 3 Mini 5 TMC 2209 stepper drivers. More details at xyzdims.com/2021/02/08/3d-printing-penta-axis-pax-5-axis-printing-option/
PAX (5-axis) 3D Printer Printhead Motion Test 2
zhlédnutí 10KPřed 3 lety
More details at xyzdims.com/2021/02/08/3d-printing-penta-axis-pax-5-axis-printing-option/ 2021/05/14
PAX (5-axis) 3D Printer Printhead Motion Test
zhlédnutí 2,8KPřed 3 lety
More details at xyzdims.com/2021/02/08/3d-printing-penta-axis-pax-5-axis-printing-option/ 2021/05/14
Mixing Planar & Non-Planar Printing with 3-axis FDM Printer
zhlédnutí 12KPřed 3 lety
Example of using non-planar conic sliced sub-volume segment to print 90° overhang with ordinary 3-axis FDM printer with vertical nozzle, but sliced for 4-/5-axis FDM printer. The conic "balcony" segment was sliced with 25° conic angle, so it can be printed with vertical nozzle. More info at xyzdims.com/2021/04/29/3d-printing-non-planar-balcony-overhang-with-3-axis-fdm-printer/ and xyzdims.com/2...
Mixing Planar & Non-Planar Slicing Methods for 3D Printing Overhangs without Support Structure
zhlédnutí 2,8KPřed 3 lety
Mixing Planar & Non-Planar Slicing Methods for 3D Printing Overhangs without Support Structure
Penta Axis (PAX) Inverse Kinematics with virtual Marlin FW display
zhlédnutí 4,2KPřed 3 lety
Penta Axis (PAX) Inverse Kinematics with virtual Marlin FW display
First print with CTC DIY I3 Pro B aka CTC Prusa i3
zhlédnutí 1,6KPřed 6 lety
First print with CTC DIY I3 Pro B aka CTC Prusa i3
LOLIN32 Lite with OLED 128x64 0.96" SSD1306
zhlédnutí 1,4KPřed 6 lety
LOLIN32 Lite with OLED 128x64 0.96" SSD1306
Stress test on 5m 2v Icosa Geodesic Dome Segment (2014/08/14)
zhlédnutí 2,1KPřed 9 lety
Stress test on 5m 2v Icosa Geodesic Dome Segment (2014/08/14)
Referat Niko Paech (Danach.info 2013-09-27)
zhlédnutí 1,6KPřed 10 lety
Referat Niko Paech (Danach.info 2013-09-27)
Einsatz für den Wandel: Podiumsgespräch (Danach.info 2013-09-20)
zhlédnutí 159Před 10 lety
Einsatz für den Wandel: Podiumsgespräch (Danach.info 2013-09-20)
Does OpenSCAD have simulation also? is it easy to earn it?
glados? got a new job?
I think placing the nozzle at the origin of rotation would make it a lot easier and also more satisfying to watch.
Have you continued working on this technology since these amazing demonstations?
Can you make this a screensaver?
This is the easy part that anyone with basic knowledge can do. The actual hard part is making a slicer for it.
goodbye support
Why 5 axis, why?
Do you have a file to print? can send me?
how are you going about homing A and B axis?
hey quick question, How are you going about printing with a tilt, cause I am also trying to build a 5d printer however I don't understand how is it that your able to home your printer with a 90 degree angle and then print at 45-degree angle, cause from what I can see you arent using endstops right? if so how are you homing your machine in order to achieve a 45 degree tilt?
Is it possible to have a complete documentation of the project please, including the Mother-Board, the firmware etc. I t will help the community to build one and give some feed backs, I am more interested non planar and non Anisotropic of the project.Thanks
I've recently tried using slicer4RTN with cura-engine on Windows to prepare gcode at a static 45° angle for a 3 axis bedslinger and I noticed that the top surface relative to the bed came out very rough despite matching nozzle tilt. Do you have any ideas what might be causing this and how to correct it?
Best contact me at contact at xyzdims dot com and enclose a photo of your setup with 45 deg nozzle.
@@ReneKMueller I have sent you an email about this subject. Please reply here if it does not arrive.
@@claws61821 I received no email.
@@ReneKMueller Okay. My email app glitched after I hit send and I didn't notice until three hours later. I'm going to run another test print before I try to email you again.
@@ReneKMueller Apologies for my lack of follow-up. I managed to confirm one of the problem sources before a family emergency occurred and have only just been able to get back to this project. Another inspection just now reveals another source that is likely the major culprit. Again my apologies, and I'll try not to be as unreliable in the future.
Saw a more mature version of your solution at CNC kitchen.. very nice!
Love the potential of this to strategically align layer lines for maximum strength where it's needed.
This is cool but what is the use case? Is it for welding?
bruh thats a 3D Printing nozzle.So the Head can move in more directions
Its a very elegant solution for non-planar 3D printing.
Have you thought about really small stepper motors instead of heavy NEMA-17's? I noticed you are only using huge heavy motors which doesn't make much sense for such a light hotend.
You are underestimating the cable and PTFE with the cold filament which adds tension which the stepper has to overcome, I tried this as the linked blog post shows. A geared smaller stepper motor might help, but will make it less compact, more bulky yet lighter in weight. There is room for improvement, but it's not has much as first sight might imply.
I'm still waiting for someone to add one of these to a CR30.
Would it still work if both motors would be on top at 45°, shafts pointing down?
Cable management is huge headache
did you use openscad? how did you program everything? it's very impressive, I'm very curious.
Excellent, How can I find out when the slicer is released?
Try this thing with a hybrid conical slicing approch
How can I get in touch with you?
contact at xyzdims dot com
CNC kitchen has a new video and information on this. Impressive 4-Axis Non-Planar 3D Printing
czcams.com/video/7LRWuccMGjc/video.html
Great video.
Hi, it's amazing. I saw some non-planar printing gcode elsewhere that makes so surfaces are seemingly less pixelated... If I understand the use of it well... Could both methods be combined without an engineer degree, at home?
imagine this, but with like 3 other heads all printing at the same time, the complex shapes and speed at which things can be printed would be amazing! perhaps mixing different materals together
Great video, could i use this to slice my models at 45 degrees?
Yes. If you happen to read the blog post I linked you see it greater detail that it slices also for belt printer.
@@ReneKMueller I will have a good read through. But what I am thinking is a standard 3 axis. Slice the model at 45 degrees to print using non planar motion.
@@Big3dprinter Look at xyzdims.com/3d-printing/slicer4rtn/
Can you send me a code for it?
Can you send me a code for it?
Can you send me the code for it?
Extremely cool!!!
Still a bit of a newbie to the 3D printing universe... How does non-planar slicing play a significant advantage over the other slicers we have today? I am curious to know of scenarios where this pattern of printing is superior to the default. Thanks!
Newbie here as well but would like to point out that FFF 3D printed parts have an internal structure like grain in wood. Separating layers of extruded filament from each other is typically easier than severing printed filament lines. Control over the direction of the grain could affect the strength of the printed part. I am curious if changing the slicing geometry would allow the printer to tackle steep overhangs and some forms of bridging that a printer using horizontal slicing might struggle with. Non planar geometry would also affect the appearance of the layer lines if the print will not undergo post processing. My concern is that typical nozzles will struggle to lay smooth layers on a slope. Imagine printing at a 45 degree angle. Either one side will be too close, one side too far, or both. This could be mitigated by using tailor made nozzles or might not be as much of a problem as I would imagine, but it's food for thought.
@@peterneerdaels604 huh! Overhangs might be a good example, true! As you also mentioned, however, I'm not so sure about the integrity of every 'flat' layer, and the final appearance of the object.
Now that I think of it... the nozzle digging into the previous layer might have potential to increase layer adhesion similar to how friction stir welding works.
I believe that with this method the layers will have better contact with each other which would help making more rigid prints. I would love to try this out myself.
Beeindruckend. Wann ist ein Alpha-Release geplant?
Thank you for your dedication! But can you introduce video teaching, because it is too difficult for non-native English speakers to learn! !
Some further details in my blog-post xyzdims.com/2022/03/26/3d-printing-slicing-with-non-planar-geometries/
Would it be reasonable to expect the slicing place geometry to influence the failure modes of the finished object particularly if using materials with embedded fibers?
This idea is good, but I seriously slows down printing ability making printing with supports faster or at least just as fast on a fast lightweight Hotend printer. My suggestion for support less printing would be to tilt the print bed instead. This can be achieved by setting up a triple z-axis system as seen here: czcams.com/video/aL7pEEHTTe4/video.html. But instead of using slow rods it would be belt driving like the other axis. Now the print head is significantly lighter resulting in faster movements all while printing at an angle.
What are the benefits of this over the 4-axis version?
Cool, but you seem to have an over extrusion problem.
will these and similar videos continue to come, please I am amazed by the beautiful, I wish your honeys continued.
a really great 3d printer is a very nice job
this looks awesome- if i may ask a few questions wouldn’t angular repeatability more of an issue an linear xyz repeatability? surely servos would be a better choice for rotary axis how long does this take to render out in openscad?? my pc takes several minutes even on comparatively simple models, i imagine this would’ve taken a very long time (unless there is some trick for rendering animations?) last thing- if you’re looking for nonplanar demo ideas, one of those 3D Hilbert curves without supports might look pretty good. keep up the good work :)
Re rendering: it's takes just a few mins to make 100 images of this animation. I simulate G-code extrusion in other videos, which takes 40-60mins for 100 images, so yes, it can get slow. Re 3D Hilbert curves, thanks for the hint!
ok this is super cool !
yum
with parallel motion linkage I think you could offset the bulk of the stepper motor to be higher leaving mostly the hotend and not cluttering up the print area.
Interesting suggestion, to move the motors away to have non-block/non-colliding space around the nozzle (if this is what you mean by 'cluttering'). Parallel linkages requires more joints and make it more mechanical complex thereby.
GLaDOS
Some insight into the printer would be fantastic