3F3D - Form Follows Force with 3D Printing
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- Опубліковано 19 лип 2016
- 3F3D - a design method inspired by nature, only put material where it is needed. Using Topology Optimization algorithm to generate the optimized design for multiple structural load cases and using Additive Manufacturing to build them. The design method was executed on structural node joints for freeform gridshell.
Author: Bayu Prayudhi
TU Delft - ARUP
Articles about the project:
facadeworld.com/2016/07/08/3f...
Music by Joakim Karud / joakimkarud - Наука та технологія
that poor printer has seen better days lol
im honestly suprised it even printed this
This is really facinating! I'm looking into topology myself, and damn, i love this. i know 3D print is not the best way to display this because for comon 3D print cases you could do a lot of other tricks, but to see the math work in reality is great, and i am really looking forward to topology optimized formula1 cars, and equivalent.
Having not seen a lefty using a chop saw before, I was certain you were going to cut your arm off.
Really cool project, thanks for sharing.
Im left
Ooooh that's why I was under the impression that he was about to amputate himself! xD
"Left-handed person". Please do not use derogatory associations like that.
@@zteaxon7787 'leftie' isn't usually considered derogatory.
@@erslippers3805 Yes it is actually. Very derogatory.
LOVE THIS WORKING PLACE!!!!
bro this reminds me of the reprap version including that sort of set up i made when reprap started / 3d printing. damn that 1 year of struggling to get the measurement right. But the right answer over the time of building it was. It need proper good adhesion that's it.
Good job man! I love it
Ecologists 6 years ago "There is a surprising amount of plastics in the ocean"
3D printers *Leonardo smiling Django meme*
We were running 2 professional 3D printers in our department (Zcorp & a big STL machine)... we produced about 1/2 cbm *per month* in debris, support material and empty resin containers. None of it was recyclable. However, because all went to a thermal waste processing plant, none of it ended up in an ocean.
3d printers using recycled plastic pla
call an ambulance but not for me hahaha
pla is bioplastic lmaoo
@@user-zd8tn4bu2f oh ye ye i know that its environment related xD now i remember thanks for correcting
That is an amazing innovation.Fantastic work. If we could get strong 3d printed structural elements to be custom designed easily for each type of construction the architectural freedom increases and cost for new types of structures goes down drastically.
Outstanding. Congratulations.
Loved the video! 👏🏼👏🏼👍🏼
Good Quality video mas, aku hobi 3d printing juga, keren mas
Awesome project, Bayu!
Are there plans for the 3d printer I. The beginning just curious
me imagino a los huesos por dentro son llenos de cavidades el diseño mas optimo que genial.
I am impressed
love it!!!!
I love this video
Nice job Bayu!
Could you recommend sources to learn more about topology optimization? :D
thanks! Altair hyperworks has a lot of learning material including guides for using their software
Kereen mas bayuu!! Lanjutkan karya nya!!
Its called generative design by autodesk. it can be used on windows through fusion360
This is so groovy! I will have wet dreams about a 3F3D optimized Hangprinter v3 mover after seeing this. Well done!
I think topology optimization makes a lot of sense, given that
1. Forces that your object will experience are predictable.
2. Physical (strength) properties of your object are predictable.
Since the HPv3 mover would be built with FFF/FDM 3d-printers, it might make sense to optimize a 2D-shape and then extrude it along Z. Both layer adhesion strength and quality of bridges/steep overhangs are hard to predict on FFF machines.
It would be nice if gcode was portable between different FFF machines. This would give the designer better control over mechanical properties of the printed objects, which would make wide spread application of things like 3F3D easier, saving both time and plastic for the whole community.
keren om bayu , pakai software apa itu analysis topology nya
sick af
Hey! Awesome project! can i ask which 3d software is that? thanks!
Most likely ANSYS WorkBench Additive
Is Altair Hyperworks.
"With enough infill... I can support the universe!" its cool but its sort of unexplained. Even weaker plastic filament like PLA can make a part that size with enough structural integrity to do the job of holding the human in the video up. One part. A few arranged distributing the load in a geodesic structure and its a job a modeling foam could do. The final product, a wood frame that will support around 200 lbs, one could print parts in non specific forms and get the same result. so while I appreciate the work that went into this, I would like to see it really demonstrated. The presentation never loads these objects enough to justify the time and effort over simply using a stronger cheaper lighter easier manufacturing material and process.
A side note to you mention of PLA as a weaker filament, considering that it's rigidity and overall strength is second only to co-polymers (reasonable uncommon, even today) I'd say your statement is a little misleading, check out docs.google.com/spreadsheets/d/1j9QazgoocuzHxg6qUXevq3dpAmmT2E87089FX6gRgWU/edit#gid=0, the UA-camr Tom Sanladerer has tested the strength of many filaments, and ranked them against each other.
As for your more overall point; if you're looking at this as an engineering feat, you're totally correct, for less work, money, and time, you can make far better structures to accomplish this task (holding a single person, with little to no sheering pressure). But I'd say that this was definitly more for aesthetics, and therefore should be considered an art piece; and art is definitly not about efficiency.
Great editing
Hi, it's amazing. What is the name of the software, that u used for structure analysis?
You can use ansys
Or Hyperworks
Or freeCAD ffm workbench
@@tulushidayatyusanto1944 %1@@@
####
which?
Why is this miraculous? What am I supposed to marvel at here? Arch shape structural bracing has been around since the second millennium BC so.... is it the topology optimized pieces that were printed I should be amazed by? I don’t mean to sound negative I truly am curious?
You’re meant to be impressed by the topology designed pieces, as if they aren’t weaker than just gluing the wood together and a complete waste of material, cpu cycles and printer time.
eyy delft!
se podria ocupar para diseñar piezas de bicicletas,para que sean mas livianas
I would love to print this and put this on my desk ... where can we find or make such shapes? Great work! I imagine your work is proprietary?
its called generative design by autodesk. it can be used on windows through fusion360
generative design or topology optimization you can fusion360 or many other free or opensource modeling tools to make similarly efficient and beautiful shapes. Also look on thingaverse
Where do you work?!? Looks amazing.
This is TU delft, it is a university in the Netherlands. It is a great school
Wow, keren mas bayu. Btw mas bayu di tu deft master student apa doctorate student?
makasih mas, saya ambil master
I have no doubt that the design is efficient, but my instinct tells me after the slightest bit of deformation, it will fail catastrophically. Am I right? Or does the optimization anticipate that?
Topology optimization is defined for a certain amount of deformation according to the max stress on the structure.
If the design load is surpassed, it MAY fail
@@BrunoLate98 If a design load is surpassed in any designed product, it is not safe anyway.
@@BrunoLate98 it depends what load cases have been included.
What CAE software did you use in the beginning? I have been finding a proper one for a long while.
ANSYS Workbench Additive
@@shelialaw2113 thx , I'll sign up for some online lessons.
which software did you used ...?
Hey, isn't that in Leiden?
Which software you have used?
Is Altair Hyperworks.
is it somehow applicable to any 3d modeling software as a plugin or something?
Fusion 360 has built in facilities to do this type of design.
The software showed in the video is Altair Hyperworks, the same company also has a 3D Modelling software called Altair Inspire, is very useful for design and optimization.
Nowadays CAD packages also have the option to run topology optimization and finite element analysis, the problem is that they are not very accurate as using and standalone software dedicated to this.
For example i use Solid Edge and instead of use the build in topology optimization module there, i just export what i made to nTopology (for topology optimization, latticing, heavy modification), then return the part to SolidEdge and make a render.
@@joestevenson5568 Fusion 360 does not includes the topology optimization option for the hobbyist license.
good job :)
What university is this? workspace looks amazing!
little late but its TU Delft university , I think its the industrial engineering workplace.
@@e.a5612 it's the architecture (Bouwkunde) faculty!
@@fatoeki oh my bad. its my first year here and with these lockdowns I haven't had the chance to look around, such a shame when seeing these cool places
@@e.a5612 ah no problem, I bet that industrial engineering has a similar workplace. But definitely hop by when the lockdown is over! The maquette hall is straight ahead from the front door, can't miss it. What do you study?
@@fatoeki first year mechanical engineering , absolutely love it but my motivation doesn't
where is he and what are thosoe people in the background doing?
You can see the original dome and equipment on my channel
Not just build an A frame ? Or is it not as strong
Establishing the well established fact but forcefully. Badum tss...
For those who don't know, it's form follows functionality.
what software is that?
Catia and Autodesk got this module.
ok
I used altair hyperworks, rhino grasshopper, and autodesk meshmixer
@@BayuPrayudhi could you please help me to learn?
And what should I do?
I'm good in grasshopper
@@BayuPrayudhi which software did you use for topology optimization?
Excelent video, i have one doubt, is that a work place in some school? i liked to have one in my school.
Looks like the design university in Delft Netherlands
Do the designs take into account the anisotropic strength of 3D prints, or is this just a gimmick?
Yes, the print orientation was also optimized for the anisotropic property. Although I didn't manage to test the strength deviation for different orientation of the printed material, I used other research as reference.
It's too bad that I was expecting til the end to see if it breaks making you fall 😅🥺?
Nice project, but the videography was.. distracting, to be polite.
There's too many cuts
Interesting, so basically using a truss for the joint?
Excuse me, is the place where you have been working a university?
Yes, TU Delft in the Netherlands
Cool an all, but you really need to perform fatigue analysis, because static analysis is just the tip of the iceberg. If you perform proper fatigue analysis you'll understand how long your joint lives (even if you use cast aluminum) compared to a regular joint. My guess, space stations would've used such joints if they were a better design choice.
good point.
This reminds me of design school i graduated at some months ago... what a foul place of posers and con artists that was. Certainly left a very bitter taste in my mouth about everything "modern design"
kak saran buat belajar rhiniceros mulai darimana ya ?
Hai scoperto lo scarico delle forze...
A lot of effort for this?
Из разряда. Зачем? Но надо.
why?
Bouwkundeee
Excellent work. But don't use your body for the first exam.
You paid for that tuition, use it! Use it all, print hundreds of those next time.
when art students try to be engineers
When art students comment on a engineering video thinking they're engineers
@@Raykkie it is anyway much better than posting a so-called-engeneering video with music instead of commentary
hmmm, what if author replace the music with his commentary? nah, that's dumb.
Why do these videos always look like something from Casey Neistat?
I should report this. Watching a guy get high on his strong joints!.
Overengineered pettycoat?
ok but why
Don't see the point of this
of that kind of weight gain improvment you mean ? are you serious ?
skyhacker6 yeah it was a foolish comment.
Clearly you are not good at mechanics
MyneOne Video Channel
Talking from engineering, this is an awful design, i don't see the merit. A bit low-level for a MsC project. Artistically... I couldn't say, I am no artist.
The company I will soon be working with develops and manufactures grippers for robots for the automotive industry e. g. for handling doors, frames etc.
They have a catalog of standardized modules for constructing these grippers and already topology optimized a joint which connects profiles. Those joints can be casted like the former design, are 30 % lighter, have a higher stiffness and are cheaper. They are planning a way more topology optimization for standardized parts which I will be part of. Please acknowledge this work and the work in this video.
carrying your 3d printer on Z axis is not very clever
Who else got scared at 1:09?
Silly demonstration. The force is borne entirely by the wood members; the plastic connectors are only there to keep the wood supporting members aligned and in position. The structure is exceedingly weak in any direction other than straight down, and therefore could not be applied to real-world situations.
Moreover, this approach fails to incorporate safety factors which compensate for such things as inevitable decay or unintentional damage.
Optimize and fail.
clearly you have the worst 3D printer ever !
So sick of this music style.
"With enough infill... I can support the universe!" its cool but its sort of unexplained. Even weaker plastic filament like PLA can make a part that size with enough structural integrity to do the job of holding the human in the video up. One part. A few arranged distributing the load in a geodesic structure and its a job a modeling foam could do. The final product, a wood frame that will support around 200 lbs, one could print parts in non specific forms and get the same result. so while I appreciate the work that went into this, I would like to see it really demonstrated. The presentation never loads these objects enough to justify the time and effort over simply using a stronger cheaper lighter easier manufacturing material and process.