Hexagon defines uame as positive material direction and local size as minus direction, and also allows selection opposed points or circular method for size tolerance. So confusing! Love your videos. All my coworkers do too :)
Hi Dean, thanks for explaining the rule number 1. you would better to say the donut gauge should be equal or longer than cylinder, otherwise it is not a good gauge to check form!
Your videos are great, im in the middle of learning about GD&T and I've supplemented my reading with your content.
Appreciate your work!
I appreciate you Dean Odell. Would be great if you were teaching in Michigan. I’d take your classes. You’re the man!
Excellent explanation - as always. Love the tie clip!
Nice haircut Dean.
Thanks for the explanation on Rule#1
Hexagon defines uame as positive material direction and local size as minus direction, and also allows selection opposed points or circular method for size tolerance. So confusing!
Love your videos. All my coworkers do too :)
You're a solid man, thanks !
Thanks Dean for the explanation!. Nice haircut.
I use Y14.5 in the UK and find your videos very useful, thankyou
Great example of how linear tolerances control size of the part but not the (geometric) form.
Great video, Dean!
Another great video Dean!
Hi Dean, thanks for explaining the rule number 1. you would better to say the donut gauge should be equal or longer than cylinder, otherwise it is not a good gauge to check form!
Thank you for the real-world example for this important rule
Another awesome video!
Great video. Btw, miss your long hair Dean..
✌🏻
What do you mean by geometric ?
Hi dan coud you help me in program in cmm calypso
haircut, perfect size. ✅