Hi from Australia :) Thank you - I really like how you succinctly explain stuff. Your videos would be great additions for any engineering students. Stay safe and well.
I taught metal shop for many years, and found your presentation to be excellent. W/O research as I recall, the grit number is based on the wire mesh through which the abrasive was sifted. By that train of thought, a mesh of 14 wire threads sifted the particles. Hence, the thickness of the wire reduces the size of the particles that can pass. This means that theoretical spherical shapes would be significantly smaller than what you described. However, in real life the wire mesh presents a square w/ a diagonal which mostly validates your claim. There's even a joker... imagining a rod shaped particle of unusual length... as it would pass the screen and confuse the issue. Fortunately, this happenes infrequently and is therefore disregarded. Still, in theory this unlikely hood could gouge into your work to marr it. In reality such an unstable piece of grit is more apt to break than do such damage. In short, your depiction would be near perfect if you didn't draw circles but oblong particles all arranged by their longer length across the inch.
Thanks for the comment. After minimal research I've found that there's a lot of different thinking out there. I appreciate you adding to the conversation. CHEERS!
I'm new to T/C grinders etc. watched a few youtube videos, recently bought a used KO Lee 360, done some T/C projects myself. You've got some nice equipment there and seem to know how to use it. For dressing diamond wheels, have a look at Alfred Lyon's videos, in one he shows a Norton brake dresser for dressing diamond wheels. I made one myself from a chunk of aluminum, a couple bearings etc. seems to work but slower than a diamond on A/O.
So how fast/slow should a diamond wheel run did you say? I thought they were just a straight swap, which would be why I had no luck with my first attempt with one.
1200 RPM with diamond wheels works well for me. 3000-3500 works well with my aluminum oxide wheels. In both cases I'm talking about wheels 4"-6" diameter
A fair # of the hubs that came with my machine had balancers built into them. I haven’t monkeyed with them as I have tons of wheels on hubs and dont know what I’m doing. Dont have balancing rack either. Steve summers showed using a balancing rack and a drill to dimple the sides of wheels until they hung balanced.
Interesting! My equipment didn't come with wheel mounting hubs. All wheels are mounted directly to the wheel arbor. I don't believe wheels are supposed to be balanced when using my equipment. Thanks for introducing a new concept for everyone to consider.
Thanks very much. I'm a home shop machinist whose just starting to implement some grinding capability in my shop. I appreciate the good info,😀
I'm glad you're finding the videos helpful.
Thanks for the comment.
Cheers!
Great to see your channel growing…lots of great info…lots over my capabilities and equipment…but one day!…Paul in Florida
Cool, thanks!
Great info, learning lots from you! Greetings from Scotland! Thanks
Thanks for watching! Great to hear.
Hi from Australia :)
Thank you - I really like how you succinctly explain stuff. Your videos would be great additions for any engineering students. Stay safe and well.
I appreciate your comment. Thanks for watching! More to come. Cheers
Very well done!
Many thanks!
Nice job! Prayers for Dad!
Thank you and thank you
Thanks for that. Cheers👍
You're very welcome
Cheers!
I taught metal shop for many years, and found your presentation to be excellent. W/O research as I recall, the grit number is based on the wire mesh through which the abrasive was sifted. By that train of thought, a mesh of 14 wire threads sifted the particles. Hence, the thickness of the wire reduces the size of the particles that can pass. This means that theoretical spherical shapes would be significantly smaller than what you described. However, in real life the wire mesh presents a square w/ a diagonal which mostly validates your claim. There's even a joker... imagining a rod shaped particle of unusual length... as it would pass the screen and confuse the issue. Fortunately, this happenes infrequently and is therefore disregarded. Still, in theory this unlikely hood could gouge into your work to marr it. In reality such an unstable piece of grit is more apt to break than do such damage. In short, your depiction would be near perfect if you didn't draw circles but oblong particles all arranged by their longer length across the inch.
Thanks for the comment. After minimal research I've found that there's a lot of different thinking out there. I appreciate you adding to the conversation. CHEERS!
I'm new to T/C grinders etc. watched a few youtube videos, recently bought a used KO Lee 360, done some T/C projects myself. You've got some nice equipment there and seem to know how to use it. For dressing diamond wheels, have a look at Alfred Lyon's videos, in one he shows a Norton brake dresser for dressing diamond wheels. I made one myself from a chunk of aluminum, a couple bearings etc. seems to work but slower than a diamond on A/O.
Thanks for the comment. I'll check his video out.
Хороший, полный и краткий обзор кругов. Как известно, краткость- сестра таланта.
So how fast/slow should a diamond wheel run did you say? I thought they were just a straight swap, which would be why I had no luck with my first attempt with one.
1200 RPM with diamond wheels works well for me.
3000-3500 works well with my aluminum oxide wheels.
In both cases I'm talking about wheels 4"-6" diameter
@@Lappemountainliving Thank you for the reply.
As Joe Pesci said in ‘My Cousin Vinny’. “Those must be Magic Grits”
LOL,,,Thanks for watching!
Ive seen others take time balancing wheels. No? Yes?
It's entirely possible. Haven't heard of that myself. I don't have any idea how to do that or what special equipment/technics might be involved.
A fair # of the hubs that came with my machine had balancers built into them. I haven’t monkeyed with them as I have tons of wheels on hubs and dont know what I’m doing. Dont have balancing rack either. Steve summers showed using a balancing rack and a drill to dimple the sides of wheels until they hung balanced.
Interesting! My equipment didn't come with wheel mounting hubs. All wheels are mounted directly to the wheel arbor. I don't believe wheels are supposed to be balanced when using my equipment. Thanks for introducing a new concept for everyone to consider.