Even though you have a small library of videos, you are definitely my favourite F360 creator. You have a very nuanced understanding of surfacing that I have not seen from other creators. Learnt a lot from this. Thank you.
Most people who make tutorials are other hobbyists and lack the technical foundation. Even many of the Autodesk guys who make tutorials don't have that foundation. Surfacing to G3 and often enough even G2 is really not possible in Fusion 360 except in very isolated cases such as to flat surfaces. The limits of the geometric modeling kernel (ASM) can clearly be seen in the later part of the video (see curvature combs) when there appears to be a need to break up a simple loft into two, additional rails etc.
As a person comfortable with F360, yours and Fusion 360 School's tutorials are the only ones from which I still learn new things. Thank you for sharing this with us, keep up the good work!
Have you considered offering a premium courses in Fusion? Something that is project based and organized as a course/workshop. I would buy it in a jiffy.
I've been using F360 for about 6 years at this point, and I frankly had no idea that you could even do this kind of analysis as I've never had a need to do it (although I think I'll start incorporating it where desired now :P) Thank you for the educational video!
Your videos are so helpful, thanks!! You should really keep making more, your teaching is one of the best for fusion on RUclips. I look forward to seeing more!
Thank you for this excellent sharing, I learned a lot So I reproduced the airpod without difficulty except for the details because I don't have the plan What is the process of constructing a spline with an angle other greater or less than 90° and continuity with lines of different lengths in x and y?
Great video! I like your method of defining the point spacing with constraints. Maybe worth mentioning that I believe Fusion 360 uses a maximum of degree 5 splines, which would affect the point spacing. For the airpods form, I think a smoother round can be achieved by not specifying the curve on the flat top surface, sweeping the profile around the path, then patching and trimming the top surface after the blend. If there is bunching then the profile curve is too big or the corner is too tight.
So you think you are getting pretty good at Fusion and then watch this. The sinking feeling of realizing you are a beginner. Good video. I think I'll go back to crayons and sheets of A4 paper now. I managed to retain about 5% and would need to watch this another 15-20 times.
The third order derivative is great. Above second order can be used in aerospace activities. It’s difficult for me to talk about this, since I’m not connected with this area. Sorry for my English.
I used a lot of these techniques in Autodesk Alias Studio. Glad to see that many of those techniques translate to Fusion in a more rudimentary way (less functions for surface continuity control, etc.). Unfortunately for me, most of my modeling needs are organic shapes with complex curve surface patterns/textures. I'm trying to avoid using Alias as it's over $1000 a month (I know... ridiculous). Fusion gets me 90% of where I need to be, but I'm trying to avoid being financially drug into Alias again. I really wish either Fusion included better surfacing controls, or they actually make Alias affordable on subscription for consultants.
Could you make an updated version of this tutorial? That would be amazing. The constraints do not work anymore like they did in the video. To be specific, The section at 14:00
Why did you take the dimensions that you have taken and how did you estimate them ? I am trying to make something similar but I am finding it really tough to figure out the dimensions of the offset and the inside curvature radius
I would kill for a CAD Designer at my billion dollar company to have a fraction of the knowledge you have dropped in this video! Do you have any resources that you've helped to build your knowledge around surfacing?
May not be a video, but maybe this helps... Most thicken errors are because the offset surface is self-intersecting, sometimes these are hard to see without evaluating the surface, so this might be happening on a micro scale. If there are imperfections or tight curvature on the surface you are trying to thicken, those imperfections are amplified by the amount of offset, causing self-intersection. The biggest culprits for this are if you are trying to thicken an already offset surface, or more likely, a non-planar patch where the edges might have curvature hotspots because the algorithm is trying a bit too hard to match curvature with the connecting surface. Lofts are more forgiving to thicken than a non-planar patch, sweeps and revolves are more forgiving than lofts. If you are using t-splines, they run into similar issues as the patches. A workaround for this is instead of using thicken, try offsetting the primary surfaces and re-construct the connecting surfaces with new lofts/patches/etc. Takes longer, but more reliable. Solidworks has the same issue, it's the nature of parametric modelers that run checks on surfaces. Hope that helps.
saw how well it worked on your RC body and thought why wouldn't it work on mine, I guess I just need to learn how f360 calculates, I'll do more trial and errors to see how much it tolerates, thanks for you tips
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Even though you have a small library of videos, you are definitely my favourite F360 creator. You have a very nuanced understanding of surfacing that I have not seen from other creators. Learnt a lot from this. Thank you.
Most people who make tutorials are other hobbyists and lack the technical foundation. Even many of the Autodesk guys who make tutorials don't have that foundation. Surfacing to G3 and often enough even G2 is really not possible in Fusion 360 except in very isolated cases such as to flat surfaces. The limits of the geometric modeling kernel (ASM) can clearly be seen in the later part of the video (see curvature combs) when there appears to be a need to break up a simple loft into two, additional rails etc.
Brooooooo we need u more often
i mean how would u even stop making videos with the quality of work you've put out so far! literally no other channel does surface like you!
If only you would upload more consistently. You're by far make the best fusion360 videos.
Thank you very much for continuing to upload videos, you are the best.
As a person comfortable with F360, yours and Fusion 360 School's tutorials are the only ones from which I still learn new things. Thank you for sharing this with us, keep up the good work!
That was an incredible lesson, I learned a lot of new concepts. Thanks so much for sharing!
I'd like to thank you for not making too much videos, I can't stop to view them repeatedly 😉
Have you considered offering a premium courses in Fusion? Something that is project based and organized as a course/workshop. I would buy it in a jiffy.
Somehow I missed this... and it's epic. Thanks.
Those videos about surface and smooth transition really helping me learn. Thank you! Looking forward to more!
I've been using F360 for about 6 years at this point, and I frankly had no idea that you could even do this kind of analysis as I've never had a need to do it (although I think I'll start incorporating it where desired now :P) Thank you for the educational video!
Your videos are so helpful, thanks!! You should really keep making more, your teaching is one of the best for fusion on RUclips. I look forward to seeing more!
that's excellent
I'm def. going to have to rewatch this when I go to finally implement this, but the explanation was really easy to follow
Realy good video the comunity need more such videos.
Perfect work your tutorial helps really.
Most useful Fusion 360 video of 2021. Fan-freaking-tastic! Thank you.
Damn, now ill always feel guilty hitting that fillet...
Thank you for this excellent sharing, I learned a lot
So I reproduced the airpod without difficulty except for the details because I don't have the plan
What is the process of constructing a spline with an angle other greater or less than 90° and continuity with lines of different lengths in x and y?
dude i just stumbled across these videos and you are blowing my mind with surfacing methodology! Hope you are doing ok!
This is super useful info and very well explained, thanks
so helpful for industrial design. Thank you for the effort.
WOW, so elaborate. Really hoping to see more from you!
Next level for Fusion tuts. Very helpful.
Autodesk, please take note from this guy (and Fusion 360 School guy while you're at it). Give us a drop down menu for this type of fillets.
Great video! I like your method of defining the point spacing with constraints. Maybe worth mentioning that I believe Fusion 360 uses a maximum of degree 5 splines, which would affect the point spacing.
For the airpods form, I think a smoother round can be achieved by not specifying the curve on the flat top surface, sweeping the profile around the path, then patching and trimming the top surface after the blend. If there is bunching then the profile curve is too big or the corner is too tight.
Thank you man, this quality content is unique in youtube, could you make a car or airplane surface tutorial ?
So you think you are getting pretty good at Fusion and then watch this. The sinking feeling of realizing you are a beginner. Good video. I think I'll go back to crayons and sheets of A4 paper now. I managed to retain about 5% and would need to watch this another 15-20 times.
Amazing explanation, thank you so much
Amazing review... Lot of the stuff is making more sense now
The third order derivative is great. Above second order can be used in aerospace activities. It’s difficult for me to talk about this, since I’m not connected with this area. Sorry for my English.
wow... been a while.
My Saturday evening gonna be chill!
I used a lot of these techniques in Autodesk Alias Studio. Glad to see that many of those techniques translate to Fusion in a more rudimentary way (less functions for surface continuity control, etc.). Unfortunately for me, most of my modeling needs are organic shapes with complex curve surface patterns/textures. I'm trying to avoid using Alias as it's over $1000 a month (I know... ridiculous). Fusion gets me 90% of where I need to be, but I'm trying to avoid being financially drug into Alias again. I really wish either Fusion included better surfacing controls, or they actually make Alias affordable on subscription for consultants.
Could you make an updated version of this tutorial? That would be amazing. The constraints do not work anymore like they did in the video.
To be specific, The section at 14:00
Extemely helpful, thanks so much for making these.
Thank you for making these videos.
Pure gold... good bless you!!!
Very cool video!
Amazing video! I’m curious , if you had done a sweep w/ guide rail to build the corner piece, what quality of surface would it give you.
Eyy! He's alive!!!
You are the best! Thanks for sharing
Learned a lot from this, thanks!
Thank you so so much
Awesome vid please post more!! 😎😎
Omg this was sooo helpful! Thank you so much for sharing
Wow that was incredibly helpful. Thank you 🤯
Excellent video!, learned a lot
wow. amazing !
Why did you take the dimensions that you have taken and how did you estimate them ? I am trying to make something similar but I am finding it really tough to figure out the dimensions of the offset and the inside curvature radius
I would kill for a CAD Designer at my billion dollar company to have a fraction of the knowledge you have dropped in this video! Do you have any resources that you've helped to build your knowledge around surfacing?
excellent, can i link subd tools to these edited g3 curves?
Awesome! Thanks so much!
This is so helpful. I'm treating this video like ID gospel.
oh shit new vid
Could you make a video on thicken commend, don't know why it doesn't work most of the time, cheers
May not be a video, but maybe this helps... Most thicken errors are because the offset surface is self-intersecting, sometimes these are hard to see without evaluating the surface, so this might be happening on a micro scale. If there are imperfections or tight curvature on the surface you are trying to thicken, those imperfections are amplified by the amount of offset, causing self-intersection.
The biggest culprits for this are if you are trying to thicken an already offset surface, or more likely, a non-planar patch where the edges might have curvature hotspots because the algorithm is trying a bit too hard to match curvature with the connecting surface.
Lofts are more forgiving to thicken than a non-planar patch, sweeps and revolves are more forgiving than lofts. If you are using t-splines, they run into similar issues as the patches.
A workaround for this is instead of using thicken, try offsetting the primary surfaces and re-construct the connecting surfaces with new lofts/patches/etc. Takes longer, but more reliable. Solidworks has the same issue, it's the nature of parametric modelers that run checks on surfaces. Hope that helps.
saw how well it worked on your RC body and thought why wouldn't it work on mine, I guess I just need to learn how f360 calculates, I'll do more trial and errors to see how much it tolerates, thanks for you tips
Its weird, the algo recommended your old videos the last weeks after not watching for a year, and now you upload this one. Google knows ...
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