Wow, just brilliant explanation. Just gotta spend the time in the workshop now practicing what youve jsut passed on to see if I can get the results. As you say its not enough to just watch and learn but your video certainly makes it much more understandable. Keep them coming and cheers.
Mr. Tromblay, your TH-cam video on forming a sheet metal reverse-curve just popped into my feed. Yours is the clearest explanation and example on the topic that I have seen. Your understanding and verbal skills are exemplary. I am looking forward to viewing your other video postings!
What method did you use to shrink the rolled over edge on the Corsair part? When shrinking this area does the shape in the reverse change? It seems like it would be similar to the Model A front fender repair I made at the running board area during last year's flock to the shop at Pat Brubaker's (Imperial wheeling machines).
Gauss (1777-1855) and Riemann (1826-1866) would be proud of you for "A reverse curve won't hold water." They called it negative curvature. If you draw a triangle on a reverse curved surface, the angles add up to something under 180°. On a sphere, they add to something over 180°. The Gauss curvature is 180° - sum of angles, negative for reverse curvature. A horse's saddle has negative curvature. Also, parallel lines are not unique.
@@williamtromblay6795 that seems normal, for mass production, but I'm not sure how specific the application was, or if enough were made to justify the cost of dies for pressing. Look at a manufacturer like Morgan, where everything is hand formed because production is low.
That was excellent! Thank you!
A very nice, clear and concise demonstration. I look forward to seeing your channel grow.
Wow, just brilliant explanation. Just gotta spend the time in the workshop now practicing what youve jsut passed on to see if I can get the results. As you say its not enough to just watch and learn but your video certainly makes it much more understandable. Keep them coming and cheers.
Glad it was helpful!
most understandable info I've seen so far about reverse curves Thanks
Enormously helpful - I now understand things that I didn't prior to watching your video. Thanks Bill!
Glad it was helpful!
Thank You for sharing your knowledge . I’m looking forward to watching all of your videos. Thanks
Thanks for watching!
Mr. Tromblay, your TH-cam video on forming a sheet metal reverse-curve just popped into my feed. Yours is the clearest explanation and example on the topic that I have seen. Your understanding and verbal skills are exemplary. I am looking forward to viewing your other video postings!
Thank you for the note.
Absolutely fantastic explanation Bill!
This is the first useful demonstration I have seen of how to make a reverse-curve - thank you!
Your welcome
Yes thank you for the lesson. Learned a lot.
This was so well explained thank you very much I’ve been binge watching your videos. Thank you for spending the extra time making these.
Thank you for watching
Thanks for this Bill great information. Cheers Dave from Australia
I like your tutoring style👍
I'm so glad I found your channel, I really like how you simply explain a difficult process...
Glad you enjoy it!
Bill, enjoy all your videos. Thanx for sharing all the information with us.
Tom
Another great video- thank you, Bill.
Great demonstration Bill
👍🏻👍🏻
Well done Bill!
What method did you use to shrink the rolled over edge on the Corsair part? When shrinking this area does the shape in the reverse change? It seems like it would be similar to the Model A front fender repair I made at the running board area during last year's flock to the shop at Pat Brubaker's (Imperial wheeling machines).
Thanks for the informative video . Not sure a "punishing hammer" though. Planishing hammer maybe?
Not sure that I ever said Punishing hammer, I only ever say Planishing hammer.
@@williamtromblay6795 I misheard, sorry.
Hello from Racine Wisconsin!!
Nice to hear from you
Gauss (1777-1855) and Riemann (1826-1866) would be proud of you for "A reverse curve won't hold water." They called it negative curvature. If you draw a triangle on a reverse curved surface, the angles add up to something under 180°. On a sphere, they add to something over 180°. The Gauss curvature is 180° - sum of angles, negative for reverse curvature. A horse's saddle has negative curvature. Also, parallel lines are not unique.
Hi, I had not heard of that, but makes sense. I will have a Anti-clastic video coming up soon. Thx Bill
@@williamtromblay6795 Gauss's Theorema Egregium.
Do you do any work for the trolley museum?
Hi, I can hear it from the hangar but I don't know anyone over there.
Were those panels stamped to shape or hand formed at the factory?
I would guess that they were stamped.
@@williamtromblay6795 that seems normal, for mass production, but I'm not sure how specific the application was, or if enough were made to justify the cost of dies for pressing.
Look at a manufacturer like Morgan, where everything is hand formed because production is low.