I imagine the undercuts aren't designed to bear pressure from the meshing teeth. If so, why wouldn't the tooth tips simply be shortened to avoid the interference? I assume the tooth would only gain strength by following that approach.
This video needs a remake. There are times when it sounds like you talking to yourself and not the listener (4:30 to 4:50). At time point 4:50 your explanation needs a graphic showing two meshing involute gears. In the current version this section was to difficult to understand. I stopped listening at this point because I could not follow your explanation. I'm 65 and familiar with gears but I don't know a lot about them and wanted to learn more. I'm sure making videos is not easy, even teaching a subject can be a challenge.
Thank you for taking your time to watch. This video was a final project for a course in my masters degree. I don't study this topic anymore. I hope to post more videos on new topics I am working on
I am a teacher in mechanical engineering, and yes this topic is really hard to explain. It needs a lot of figures and, moving figures to explain this. The books fail to explain this topic. This is the best explanation so far. Big thanks to sir Cory for doing this.
Thanks for making this video. It really helpful.
You're welcome, I'm happy it helped.
Nicely explained Cory! Thanxx ;)
Should it be "increasing the distance between center points of two gears? Im confused.
It was a good explanation sir..thank you
You're welcome 👍
Thanks
It's a good explanation ☺
I'm happy you liked it
Awesome video
I imagine the undercuts aren't designed to bear pressure from the meshing teeth. If so, why wouldn't the tooth tips simply be shortened to avoid the interference? I assume the tooth would only gain strength by following that approach.
If you shorten the tip you lose part of the involute and thereby some of the engagement.
Than you!
This video needs a remake. There are times when it sounds like you talking to yourself and not the listener (4:30 to 4:50). At time point 4:50 your explanation needs a graphic showing two meshing involute gears. In the current version this section was to difficult to understand. I stopped listening at this point because I could not follow your explanation. I'm 65 and familiar with gears but I don't know a lot about them and wanted to learn more. I'm sure making videos is not easy, even teaching a subject can be a challenge.
Thank you for taking your time to watch. This video was a final project for a course in my masters degree. I don't study this topic anymore. I hope to post more videos on new topics I am working on
I am a teacher in mechanical engineering, and yes this topic is really hard to explain. It needs a lot of figures and, moving figures to explain this. The books fail to explain this topic. This is the best explanation so far. Big thanks to sir Cory for doing this.
khatarnaak