Love your vids. I have no musical ability whatsoever, but that doesn't diminish my respect for your skills, or my enjoyment in any way. I'm delighted that you're still finding ways to maintain your enthusiasm! Bravo!
Would it be possible to make a deeper note by 3d printing a u shape to bend the pipe back towards you? If that feels too unnatural you could use 2 u pipes so it would look something like a trumpet without the valves. I'd love to hear what a Contra Overtone Flute sounds like.
Incidentally.. a good document to read if you are interested in the effects of different sized windows and windways in flute (or, in this case, pennywhistle) design is Guido Gonzato's "Low Tech Whistle" guide. I'm sure Nicholas is familiar with this, but many here probably have not read it yet. I don't have the URL handy but it should be easy to find if you do a search. Interesting coincidence - Dr. Gonzato teaches geology, and so do I. 😁
Awesome as always! You could design some u shaped 3d printed connectors so you can lengthen the pipe back towards you and back and forth. So the length of the tube is longer but your hand can still reach the end. I feel like you would have done this before in your previous instruments. I love that it is such a simple instrument with such a great result!
I noticed something that could make a big difference. If you look at @3:24 you can see the z-seam alignment is going right into the window. You want the edge of the bevel to be as clean as possible, and the z-seam will mess that up. In your slicer you can configure where it puts the seam. Personally, I would make it on the 'bottom' of the head (180 deg opposite to the opening)
I got the A1 last month and it's the most incredible tool for a creating mind. My friend has asked to collaborate on low register whistles made using the "impossible" geometry of FDM printing, so that the finger holes are accessible for all. Exciting times to be be an instrument maker I am planning on using TPU for coupling as well, I believe this will be more airtight. Your videos have inspired me for years, it is fun to converge at a similar place.
Always glad to see new stuff from you~ Just a lil idea- you could always sell the plans and let us build the sets ourselves. Just sell the 3d printable parts for those of us who don't have access to 3d printers, and let us cut the pipes and experiment with the lengths too~
Love to see where this goes, i'm putting together a 3d printer for similar reasons, i want to build a street organ. Will be following your progress with great anticipation!
You would probably get a lot of useful information talking to Tin Whistle or Recorder makers. One thing that I've noticed that the better, and more expensive, recorders have a curved windway in the head.
im confused. How are you getting those melodies without even moving your fingers on and off of air holes? you know, like an actual flute or recorder? I didn't know you could get so many notes from essentially an elongated whistle. not a single one anyway. could you please explain this to us? I will have a look through your other videos just in case you have already explained this somewhere.
Wow - that was just what I was looking for for a community music for seniors project. Would you sell the 3D printing file for the overtone flute fipple so we can fit them over PVC pipes? It would be so much affordable for us to do that with mass numbers that we are trying to reach
Great News! Really love your unique instruments and admire your skills! Bravo! My friends and I are working on some new music for your instruments. It has been an inspiring journey of exploring your works.😁
In my experience, 3D printed long tubes often degrade sound due to all the micro ridges from layer lines, and I'm guessing that is one of the reasons why you focus more on PVC tubes? Potentially worth exploring ASA as a printing material, along with an alcohol mist setup to vapor smooth the parts. Also solves issues of temp resistance and long term deformation of PLA, and lowers likelyhood of small air leaks. Would have to get an enclosed printer though. TPU has some possibilities too, can make improved finger hole seals and slip in place to holes on a tube to dynamically change hole sizes or plug completely on a single tube. That could easilly be done with your A1 and dramatically speed up testing with hole sizes and positions.
Merci je viens de commander. 👍✨J espère que prochainement vous mettre en vente la flûte indienne traversière. La clarinette avec menbrane. Encore merci pour toutes vos vidéos inspirantes
Salut Nicolas, 2-3 petits conseils niveau impression 3D, l'infilm en giroïde n'est utile que si tu as des contraintes mécaniques selon plusieurs axes. Ce n'est pas ton cas ici, donc tu peux utiliser un infill plus simple, qui ira plus vite à imprimer. Dans les slicers, il y a une option pour lui indiquer où commencer chaque nouvelle couche. Là tu es visiblement en "aligné", il vaut mieux mettre "aléatoire", ça éviterait les marques inesthétique qu'on voit à 3:25.
just one thought about how differing the tube diameter will stabilise different ranges.. thinner for shorter smaller higher pipes.. In fipple whistles like Susato they tend to be able to do G in both their diameters
Very cool! I wonder what would happen if you did a split mouthpiece with different shapes or lengths of the chambers, it might make it sound doubled with the micro delay. Fun!
There are companies that will do the 3d printing for you. I would try to outsource as much of the work as possible. Whatever you do, make sure it can scale up without it taking over your life. Look forward to your future videos :)
Sort of interested in how this was designed. This project seems to be best suited for a parametric approach, where you can vary dimensions by typing in values for dimensional parameters instead of having to tweak designs by pushing and pulling on lines or surfaces. I can't tell what software Nicholas is using, parametric design only works with the more advanced 3D CAD packages such as Fusion 360 or FreeCAD, and not with simpler packages such as 123D Design (which I use) or TinkerCAD. It's interesting that he prints these parts mouth-down which would necessitate supports inside. When I designed my pennywhistle head recently, I printed it in two parts, which glue together.
Very interesting! The effect of wall thickness was surprising! I'm curious about how you're selling your kits. I got into to 3D printing in 2020 with just an ender 3 to help with my engineering degree and designed a miniature shakuhatchi, but never started selling anything. I hope the kits go well!
Salut Nicolas, as tu pensé à vendre juste les embouts, en mode diy? Plus facile à envoyer par la poste et j'ai déjà des tuyaux de pvc qui traînent. Juste une idée :))
oui bien sur, mais il y a beaucoup de petites variations entre les differents arrivages de tuyaux pourtant de meme taille, et je dois imprimer avec des tolerances tres precises, je reflechis a des solutions!
Cool experiment!! Was thinking the shape of the bevel formed what traditionally could be made with tools.. But with 3d printing these restrictions are gone.. could there be an impact if it is a more a diamond shape or if there are multiple or any structure present
Hey, Nicky Arms, Do you think you could make a flute while you’re blindfolded? I’d like to see a video of that. (I mean make one by hand, not with automated machinery.)
@@NicolasBras especially if it's tylynka, an overtone flute without whistle that's played like Bulgarian kaval or Turkish ney, traditional flute from Gucul people in Ukrainian Carpathian mountains. Hard to master, very easy to make)))
Outstanding work as always. I'm curious - do you have some safety for the inhalation of PVC particles? I typically use pipe cutters when working with pipes because they create fewer microplastics than saws, and it concerns me you don't wear a mask and also play wind instruments that require a lot of breath in a space where there are PVC particles from your saw.
hey, Nicolas, I have missed the part where we can get those 3D files for perfect flute) Don't see them on your store) Are they on the Patreon page? If not, consider selling those files through your website or cults3d. I would hesitate buying physical kit given international shipping fees and time, I would buy those files today and have my flutes tomorrow printed). Also, would love the same for 2in pvc tubes for Fujara)
Nicolas goes engineering mode! :) Looks like a good use case for 3d printing for this systematic explorations. And the output seems to be of very good quality, so you have no "riffles" in the plastic that could spoil the airflow, impressive. On the shop: Nice idea..but Nicolas, you are first of all an inventor and musician, you should give the ecommerce stuff to an 3rd party, as logistics is time consuming. I am looking forward to your string instruments, there are some unique sounds with that. In the realm of flutes, I wonder if nonlinear shapes as "Magnetic Showerhead for structured and rotating water with assembly guide" shown in his YT video are may be a use case for 3D printing ? However that was a shower head aiming at "structuring water" not sure if a swirling airflow has attractive sound qualities..but could be interesting! In the realm of overtones you are moving now, may be swirling spiral shapes may add a thing to the sound ?
Nicolas, qu'est-ce que tu dirais d'une version numérique pour les gens qui ont déjà une imprimante 3D ? Tu économiserait ainsi sur la production et les frais d'expédition.
3D printed would have saved me sooo much hassle in designing my flute's mouthpiece, I was machining so many bits to get it to work and it's still a bastard to play (looks nice though, I play it in my latest video 😄) I suspect the biggest problem is the curved air channel.
Congratulation on starting this new business, best of luck to you! I hope you will get a lot of Christmas orders and have sleepless nights untill 2025! 😝
wait.... wait... could you put another bevel for air split, inside the EXISTING bevel for an air split. Making a single pipe drone? The second bevel might need a little cup and put it back into the body ....
very hard to make two sounds with the same air column, not impossible I have some weird prototypes, but not sure this approach could work...but I would to see the result!
!!!!!! Bruh...stop. You cant be better than all of us, all of the time...like you gotta leave some cool stuff for the rest of us...this is a great instrument.
Pure curiosity of a mathematician: I wonder how the geometry of the bevel surface would affect the sound. I mean convex or concave instead of straight flat.
résumé personnel : épaisseur paroi 4-5 mm / épaisseur conduit 1.5 - 2mm / longueur conduit 10-20 mm / largeur fenêtre 6-12mm / hauteur fenêtre 4-6 mm/ longueur "hanche" 15-20mm / petites pistes en échange : reproduire des hanches d'instruments à hanche, "en négatif"/"en creux" : clarinette, saxophone, chalumeau... chose que je serais probablement incapable de faire en bois, mais donner des angles, notamment dans le conduit, pour accélérer le flux d'air( plus large entrée de conduit que largeur de fenêtre, de ce que j'ai noté, c'est ici égal) et puisque tu as les longueurs, tu sais donc ou placer des trous, reste à en régler l'épaisseur et la largeur... Intéressant tout ça : la flûte harmonique à trou de tierce, de quinte, d'octave,?
oui j'ai fait quelques tests sur l'entree du conduit plus large que la sortie sur d'autres modeles de flutes, la difference est impressionnante meme sur de petites variations...mais je ne comprends pas encore bien comment ca marche!
@@NicolasBras eh bien ça à un rapport avec la pression et l'appel d'air. Sur un conduit droit, la pression est constante lorsqu'on souffle à pression constante, alors que si le conduit se rétrécit, alors la pression augmente : on exerce une pression constante, mais la quantité de gaz par mm2 de sortie augmente. Or la pression de notre souffle est vitesse de mouvement d'air. Donc le flux d'air sortant est accéléré par la géométrie du conduit. Ca a un autre effet : ce souffle compressé va se détendre dans la flute, et cette détente sera d'autant plus forte que le différentiel de pression est fort, donc plus le souffle sera compressé. Le tout s'ajoutant à la mécanique de séparation des filets d'air. en effet, la flute est pas fermée, il y a une entrée d'air, une butée pour diviser les filets d'air, ce qui provoque le sifflement. Seulement, on a aussi un différentiel de pression plus ou moins fort entre l'intérieur de la flûte et son extérieur, et même si je serais incapable de produire une équation, je doute que les filets d'airs séparés soient en quantité égales, et je suppose que ce différentiel de pression va créer une aspiration, et si j'ai raison, à la butée qui crée le sifflement. Enfin, c'est une flûte harmonique : c'est justement les différentes pression d'air, "harmonisées" par la géométrie constante de la flûte qui créent les différentes harmoniques produites.
Throughout the video I thought the name of the instrument was the "Overton flute" (as in someone's name). After I clicked on the shop link it turns out it's an overTONE flute (as in, you get different notes by overblowing). Interestingly enough, in Sociology and Political Science, there is something called the Overton Window - the range of policies - or discussion of policies - that is acceptable to the general population at a given time.
Bonjour Merci beaucoup pour vos vidéos Pouvez vous m'aider je souhaiterais monter un orchestre avec des instruments fabriquer par mes élèves (classe d'éveil musical, et mes premières années de solfège) je souhaiterais le faire en utilisant des embouchures plastiques acheté que l'on viendrait mettre sur différents objets récupéré et transformé pour pouvoir créer un petit morceaux avec pouvez vous m'aider ? Merci d'avance
to be fair, it was a lot more distinct in real life, I had to shrink the edit because I can't hear that much too on my recordings...there was so much more analysis of the results in the rushes
Remember the good old days, when you were all about inventing/up-cycling/artistically creating musical instruments... And now, it's all about promotions & advertisements for 3D printers, etc. I don't want to watch advertisements about 'PLASTIC SHAPED OBJECTS' being printed... So, unfortunately, I now have to say GOODBYE to 'another', what was once a very, very good channel, due to the fact that they have 'LOST' their soul to the corporate machine... I will miss you... R.I.P.
Nice Nicolas! I designed a similar printed mouthpiece for Native American flutes. I love the creativity that 3D printing allows us! Cheers!
Nicolas is my guru now.
I made some tries too with native american flutes, so much more hours of experimentation coming..!
Cheers to you both!
Love your vids. I have no musical ability whatsoever, but that doesn't diminish my respect for your skills, or my enjoyment in any way. I'm delighted that you're still finding ways to maintain your enthusiasm! Bravo!
I appreciate that! thanks!
Would it be possible to make a deeper note by 3d printing a u shape to bend the pipe back towards you? If that feels too unnatural you could use 2 u pipes so it would look something like a trumpet without the valves. I'd love to hear what a Contra Overtone Flute sounds like.
don't spoil the next videos!
@ 🤫 my lips are sealed…
Incidentally.. a good document to read if you are interested in the effects of different sized windows and windways in flute (or, in this case, pennywhistle) design is Guido Gonzato's "Low Tech Whistle" guide. I'm sure Nicholas is familiar with this, but many here probably have not read it yet. I don't have the URL handy but it should be easy to find if you do a search. Interesting coincidence - Dr. Gonzato teaches geology, and so do I. 😁
Awesome as always! You could design some u shaped 3d printed connectors so you can lengthen the pipe back towards you and back and forth. So the length of the tube is longer but your hand can still reach the end. I feel like you would have done this before in your previous instruments. I love that it is such a simple instrument with such a great result!
I noticed something that could make a big difference. If you look at @3:24 you can see the z-seam alignment is going right into the window. You want the edge of the bevel to be as clean as possible, and the z-seam will mess that up. In your slicer you can configure where it puts the seam. Personally, I would make it on the 'bottom' of the head (180 deg opposite to the opening)
I got the A1 last month and it's the most incredible tool for a creating mind. My friend has asked to collaborate on low register whistles made using the "impossible" geometry of FDM printing, so that the finger holes are accessible for all. Exciting times to be be an instrument maker
I am planning on using TPU for coupling as well, I believe this will be more airtight. Your videos have inspired me for years, it is fun to converge at a similar place.
Visit the shop right here!
instrumentsbybras.com
Friend, make a "slide/sliding" flute body 👍
Like a "Stick Trombone"...
Épingle ton post en haut des commentaires, sinon il va disparaître !
Absolutely love this! I love to print and give out whistles to the youth group, so this will go into my bag of tricks!
Please do!
How are you changing pitch? There are no holes like a traditional flute or recorder.
I am soooo intrigued^^ I think after Christmas I'll treat myself to a set!
I'm building more!
Always impressed by your talent, creativity, and musicianship. Your videos are a joy to watch. Thanks
thanks a lot!
A quiet practice tin whistle is something I've always wanted.
That could be a cool instrument series!
Fipples are so tricky for me! This is fantastic!!!
I made one of your sax tubes, it worked. You are awesome.
glad to hear it!
Always glad to see new stuff from you~
Just a lil idea- you could always sell the plans and let us build the sets ourselves. Just sell the 3d printable parts for those of us who don't have access to 3d printers, and let us cut the pipes and experiment with the lengths too~
Love to see where this goes, i'm putting together a 3d printer for similar reasons, i want to build a street organ. Will be following your progress with great anticipation!
Thanks a lot!
You would probably get a lot of useful information talking to Tin Whistle or Recorder makers. One thing that I've noticed that the better, and more expensive, recorders have a curved windway in the head.
True. It reduces clogging.
im confused. How are you getting those melodies without even moving your fingers on and off of air holes? you know, like an actual flute or recorder? I didn't know you could get so many notes from essentially an elongated whistle. not a single one anyway. could you please explain this to us? I will have a look through your other videos just in case you have already explained this somewhere.
Overtones, my dude. Blow harder and the pitch is higher
just look up the harmonic series
Same principle as how a bugle works
because they try to promote 3d printing: service)))
Look up overtone flutes. You can overblow past the octave to get the rest of the harmonic series: C, C, G, C, E, G, Bb, C, et cetera…
Well done. Good luck to you in all future endeavors. Oh and Merry Christmas too!🎄
Super. Je suis vraiment content de savoir que vous commencez a vendre vos créations. Quelle bonne nouvelle 👍
Very cool. Love your creativity
Thank you! Cheers!
Wow - that was just what I was looking for for a community music for seniors project. Would you sell the 3D printing file for the overtone flute fipple so we can fit them over PVC pipes? It would be so much affordable for us to do that with mass numbers that we are trying to reach
Give me a few days, I think I'll share that for free on printables
@ thank you. That will be fantastic, I’m so grateful for that.
@@NicolasBrasYou're the best!
Great News! Really love your unique instruments and admire your skills! Bravo! My friends and I are working on some new music for your instruments. It has been an inspiring journey of exploring your works.😁
Congratulations on the new line!
wow, amazing job dude!
Thanks a lot!
Would you be willing to sell the STL? I already own a bambu and would love to print one!
I think I'll share that for free on printables, just give me a few days!
Yes, please! I've been wanting to experiment with making things like this but absolutely suck at making the mouthpiece :V
@@NicolasBras You are amazing! Thank you so much!
Love the use of the 3D printer for the heads, will you be releasing any of the 3D printer files later Please?.
In my experience, 3D printed long tubes often degrade sound due to all the micro ridges from layer lines, and I'm guessing that is one of the reasons why you focus more on PVC tubes?
Potentially worth exploring ASA as a printing material, along with an alcohol mist setup to vapor smooth the parts. Also solves issues of temp resistance and long term deformation of PLA, and lowers likelyhood of small air leaks. Would have to get an enclosed printer though.
TPU has some possibilities too, can make improved finger hole seals and slip in place to holes on a tube to dynamically change hole sizes or plug completely on a single tube. That could easilly be done with your A1 and dramatically speed up testing with hole sizes and positions.
Merci je viens de commander. 👍✨J espère que prochainement vous mettre en vente la flûte indienne traversière. La clarinette avec menbrane. Encore merci pour toutes vos vidéos inspirantes
Looking great!
Thanks!
Salut Nicolas, 2-3 petits conseils niveau impression 3D, l'infilm en giroïde n'est utile que si tu as des contraintes mécaniques selon plusieurs axes. Ce n'est pas ton cas ici, donc tu peux utiliser un infill plus simple, qui ira plus vite à imprimer. Dans les slicers, il y a une option pour lui indiquer où commencer chaque nouvelle couche. Là tu es visiblement en "aligné", il vaut mieux mettre "aléatoire", ça éviterait les marques inesthétique qu'on voit à 3:25.
Hello, merci pour ces precieuses informations, je vais aller tester tout ca!
just one thought about how differing the tube diameter will stabilise different ranges.. thinner for shorter smaller higher pipes..
In fipple whistles like Susato they tend to be able to do G in both their diameters
Very cool! I wonder what would happen if you did a split mouthpiece with different shapes or lengths of the chambers, it might make it sound doubled with the micro delay. Fun!
Have have a similar idea stucked in my head for long, I'll have to try one day
There are companies that will do the 3d printing for you. I would try to outsource as much of the work as possible. Whatever you do, make sure it can scale up without it taking over your life. Look forward to your future videos :)
I got some contacts and some coworkers on that, I'll have to adapt for sure but I'm quite confident!
@NicolasBras sounds good!
So much variation, and every one produced a tone.
Does print orientation (layer lines and finish) make much difference?
much I don't think so, with a high quality print it dissapears
Sort of interested in how this was designed. This project seems to be best suited for a parametric approach, where you can vary dimensions by typing in values for dimensional parameters instead of having to tweak designs by pushing and pulling on lines or surfaces. I can't tell what software Nicholas is using, parametric design only works with the more advanced 3D CAD packages such as Fusion 360 or FreeCAD, and not with simpler packages such as 123D Design (which I use) or TinkerCAD. It's interesting that he prints these parts mouth-down which would necessitate supports inside. When I designed my pennywhistle head recently, I printed it in two parts, which glue together.
Very interesting! The effect of wall thickness was surprising! I'm curious about how you're selling your kits. I got into to 3D printing in 2020 with just an ender 3 to help with my engineering degree and designed a miniature shakuhatchi, but never started selling anything. I hope the kits go well!
It's a big project, but it can be very fun to dig that idea, I only got a few hours of experience for now but I will give some updates!
Cool. Tu devrais déplacer les coutures (seam) pour assurer que cela n'impacte pas les parties importantes de l'embout :p
Salut Nicolas, as tu pensé à vendre juste les embouts, en mode diy? Plus facile à envoyer par la poste et j'ai déjà des tuyaux de pvc qui traînent. Juste une idée :))
oui bien sur, mais il y a beaucoup de petites variations entre les differents arrivages de tuyaux pourtant de meme taille, et je dois imprimer avec des tolerances tres precises, je reflechis a des solutions!
excellent. you're a genius
Thanks a lot!
Cool experiment!! Was thinking the shape of the bevel formed what traditionally could be made with tools.. But with 3d printing these restrictions are gone.. could there be an impact if it is a more a diamond shape or if there are multiple or any structure present
Oh! I just picture a slide on those overtone flute am I crazy?
I works, but you will be stuck with closed sounds, not the best sound on the overtone flute, but it works!
Hey, Nicky Arms,
Do you think you could make a flute while you’re blindfolded? I’d like to see a video of that.
(I mean make one by hand, not with automated machinery.)
that one, yes for sure
@@NicolasBras especially if it's tylynka, an overtone flute without whistle that's played like Bulgarian kaval or Turkish ney, traditional flute from Gucul people in Ukrainian Carpathian mountains. Hard to master, very easy to make)))
Outstanding work as always. I'm curious - do you have some safety for the inhalation of PVC particles? I typically use pipe cutters when working with pipes because they create fewer microplastics than saws, and it concerns me you don't wear a mask and also play wind instruments that require a lot of breath in a space where there are PVC particles from your saw.
not enough probably, but I'm working on it!
Love this! Have you thought of selling the STL for the design for those who already have 3d printers?
I think I'll share it for free on printables, give me a few days!
Greetings from Denmark 🇩🇰
thanks!
Mais c'est trop cool *O*
Je suis trop fan haha !
Hi Nicolas ,that 3D software looks good, please what is it? I try do design ma own fipple for whistle, but im still on process
It's Fusion 360. I have a caval head i made on thingiverse, it's free if you want to try it.
@@lacaval Hello! I am interested to try to print it.
hey, Nicolas, I have missed the part where we can get those 3D files for perfect flute) Don't see them on your store) Are they on the Patreon page? If not, consider selling those files through your website or cults3d. I would hesitate buying physical kit given international shipping fees and time, I would buy those files today and have my flutes tomorrow printed). Also, would love the same for 2in pvc tubes for Fujara)
I think I'll share that for free on printables, just give me a few days!
@NicolasBras You are amazing! keep up the good work!
Nicolas goes engineering mode! :) Looks like a good use case for 3d printing for this systematic explorations. And the output seems to be of very good quality, so you have no "riffles" in the plastic that could spoil the airflow, impressive. On the shop: Nice idea..but Nicolas, you are first of all an inventor and musician, you should give the ecommerce stuff to an 3rd party, as logistics is time consuming. I am looking forward to your string instruments, there are some unique sounds with that.
In the realm of flutes, I wonder if nonlinear shapes as "Magnetic Showerhead for structured and rotating water with assembly guide" shown in his YT video are may be a use case for 3D printing ? However that was a shower head aiming at "structuring water" not sure if a swirling airflow has attractive sound qualities..but could be interesting! In the realm of overtones you are moving now, may be swirling spiral shapes may add a thing to the sound ?
wut??????, it was my dream to get this info from you omg
I wish you great business success.
thanks a lot!
Wow where can I get that machine
the link is in the description!
Hey Nicolas, have you tried making the bevel convex or concave ? Or having it bend out instead of being straight ?
All I tried is in that video! But there is so much more to try
Fascinating
Thanks a lot!
What if we make a telescopic flute, like a bassoon?
Those narrow ones would be great for practicing without annoying people
right, practice flutes could be an idea!
Nicolas, qu'est-ce que tu dirais d'une version numérique pour les gens qui ont déjà une imprimante 3D ? Tu économiserait ainsi sur la production et les frais d'expédition.
Hi Nicolas. Will you upload the 3D files for patreons Just Like you did with the ebook? Nice work
3D printed would have saved me sooo much hassle in designing my flute's mouthpiece, I was machining so many bits to get it to work and it's still a bastard to play (looks nice though, I play it in my latest video 😄) I suspect the biggest problem is the curved air channel.
Am I crazy or was there an additional higher overtone (or octave maybe?) even higher than the original coming through on the biggest x axis prototype?
yes when you go extreme on the parameters you can reach multiphonics, with several overtones played at the same time
This might ruin the purpose of the shop, but are you planning to release the stls for free/priced downloads?
I would love to print these with some woodfill filament 😊
I'll share that for free on printables, just give me a few days!
@@NicolasBras Thank you!
Congratulation on starting this new business, best of luck to you! I hope you will get a lot of Christmas orders and have sleepless nights untill 2025! 😝
thanks, based on those last hours, that's probably what will happen!
Can i buy an STL file to 3d print a mouthpiece myself?
wait.... wait... could you put another bevel for air split, inside the EXISTING bevel for an air split. Making a single pipe drone? The second bevel might need a little cup and put it back into the body ....
very hard to make two sounds with the same air column, not impossible I have some weird prototypes, but not sure this approach could work...but I would to see the result!
!!!!!! Bruh...stop. You cant be better than all of us, all of the time...like you gotta leave some cool stuff for the rest of us...this is a great instrument.
I just have too much free time...
Pure curiosity of a mathematician: I wonder how the geometry of the bevel surface would affect the sound. I mean convex or concave instead of straight flat.
résumé personnel : épaisseur paroi 4-5 mm / épaisseur conduit 1.5 - 2mm / longueur conduit 10-20 mm / largeur fenêtre 6-12mm / hauteur fenêtre 4-6 mm/ longueur "hanche" 15-20mm /
petites pistes en échange : reproduire des hanches d'instruments à hanche, "en négatif"/"en creux" : clarinette, saxophone, chalumeau...
chose que je serais probablement incapable de faire en bois, mais donner des angles, notamment dans le conduit, pour accélérer le flux d'air( plus large entrée de conduit que largeur de fenêtre, de ce que j'ai noté, c'est ici égal)
et puisque tu as les longueurs, tu sais donc ou placer des trous, reste à en régler l'épaisseur et la largeur... Intéressant tout ça : la flûte harmonique à trou de tierce, de quinte, d'octave,?
oui j'ai fait quelques tests sur l'entree du conduit plus large que la sortie sur d'autres modeles de flutes, la difference est impressionnante meme sur de petites variations...mais je ne comprends pas encore bien comment ca marche!
@@NicolasBras eh bien ça à un rapport avec la pression et l'appel d'air.
Sur un conduit droit, la pression est constante lorsqu'on souffle à pression constante, alors que si le conduit se rétrécit, alors la pression augmente : on exerce une pression constante, mais la quantité de gaz par mm2 de sortie augmente.
Or la pression de notre souffle est vitesse de mouvement d'air.
Donc le flux d'air sortant est accéléré par la géométrie du conduit.
Ca a un autre effet : ce souffle compressé va se détendre dans la flute, et cette détente sera d'autant plus forte que le différentiel de pression est fort, donc plus le souffle sera compressé.
Le tout s'ajoutant à la mécanique de séparation des filets d'air.
en effet, la flute est pas fermée, il y a une entrée d'air, une butée pour diviser les filets d'air, ce qui provoque le sifflement.
Seulement, on a aussi un différentiel de pression plus ou moins fort entre l'intérieur de la flûte et son extérieur, et même si je serais incapable de produire une équation,
je doute que les filets d'airs séparés soient en quantité égales,
et je suppose que ce différentiel de pression va créer une aspiration, et si j'ai raison, à la butée qui crée le sifflement.
Enfin, c'est une flûte harmonique : c'est justement les différentes pression d'air, "harmonisées" par la géométrie constante de la flûte qui créent les différentes harmoniques produites.
Tell me, have you ever thought about assembling a apprehension engine? But something completely unusual.
Throughout the video I thought the name of the instrument was the "Overton flute" (as in someone's name). After I clicked on the shop link it turns out it's an overTONE flute (as in, you get different notes by overblowing). Interestingly enough, in Sociology and Political Science, there is something called the Overton Window - the range of policies - or discussion of policies - that is acceptable to the general population at a given time.
Bonjour
Merci beaucoup pour vos vidéos
Pouvez vous m'aider je souhaiterais monter un orchestre avec des instruments fabriquer par mes élèves (classe d'éveil musical, et mes premières années de solfège) je souhaiterais le faire en utilisant des embouchures plastiques acheté que l'on viendrait mettre sur différents objets récupéré et transformé pour pouvoir créer un petit morceaux avec pouvez vous m'aider ?
Merci d'avance
Bonjour, on peut en discuter, vous pouvez me contacter sur nicolasbras.com
"Okay, now I have the perfect head... and cut my body in half."
Woah, content warning
This is so cool. The only thing I'd want beyond what you're offering is fittings in inches for us backwards Americans.
🫶🫶🫶
I guess my ears aren't as good as I thought. I basically heard no difference between any of the mouth pieces, haha.
to be fair, it was a lot more distinct in real life, I had to shrink the edit because I can't hear that much too on my recordings...there was so much more analysis of the results in the rushes
Remember the good old days, when you were all about inventing/up-cycling/artistically creating musical instruments... And now, it's all about promotions & advertisements for 3D printers, etc. I don't want to watch advertisements about 'PLASTIC SHAPED OBJECTS' being printed... So, unfortunately, I now have to say GOODBYE to 'another', what was once a very, very good channel, due to the fact that they have 'LOST' their soul to the corporate machine... I will miss you... R.I.P.
be really carefull to pronounce the "b" of bambu lab
hehehe - this is an ad for 3d printing? these flutes will never work this way:)
Show some respect. Nicolas has been making instruments for years. He shares his ideas freely. And they work.
What do you have to offer?