Love the stability of the cut. No bad harmonics, just clean, consistent chips. Only downside is the mess the steel needles make when you try to run them through the chip conveyor...
I'm noticing how the linking moves between each toolpath is fully 3 axis motion, as long as there is no stock in the way. It's a tiny detail but really cool since most of the time there's a Z retract before positioning X & Y to the next lead-in.
Шутишь? Человек не знает разницы между встречным и попутным фрезерованием. Износ фрезы больной на торце, из за больного съема на нём, плюс встречного фрезерования. После одной двух деталей фрезу, у которой почти новая ленточка можно выкидывать. Не говоря уже о том что в режимах он не разбирается.
I agree with you, I would also add an end mill and a spherical cutter. And it would be cheaper in relation to the price of the product. A 20 mm end mill costs $140
1018 or any 1000 series of steel are the aluminum of steels. you can really feed it hard and go very fast. uncoated carbide is prolly good at 5 or 600 sfm but anything with altin alcrn tialn coatings your talking 1000+ sfm. that coating produces a thin layer of aluminum oxide on the tool at high temperatures. which resists wear to the edge. which is why its better to mill steels with air blast only when using those coatings. using coolant cools the edge too fast and chips it up, fracturing the coating until it breaks away. which snowballs into a mess quickly. because you no longer have the oxide being produced if there is no coating.
That’s some very tight programming. Nicely done.
Love the stability of the cut. No bad harmonics, just clean, consistent chips. Only downside is the mess the steel needles make when you try to run them through the chip conveyor...
I'm noticing how the linking moves between each toolpath is fully 3 axis motion, as long as there is no stock in the way. It's a tiny detail but really cool since most of the time there's a Z retract before positioning X & Y to the next lead-in.
Yep its so the tool doesnt rub on the floor during the linking move
@@MrLembnauhe's talking about the moves between toolpaths. Not the transitions between each step over.
A lot of cam software has options to keep tool down or limit g0 rapid movements
Very good job👍
man I miss machine work too bad the money wasn't there here where I'm at. I'm doin line work now
Very cool tool strategy!
Шутишь? Человек не знает разницы между встречным и попутным фрезерованием. Износ фрезы больной на торце, из за больного съема на нём, плюс встречного фрезерования. После одной двух деталей фрезу, у которой почти новая ленточка можно выкидывать. Не говоря уже о том что в режимах он не разбирается.
which CAM program did you use? Those Linking moves look sick
Why did you do everything with one tool? Use a face mill at the beginig and ball at the end and you are down to 4,5 min and extend your tool life.
Was not remotely worried about cycle time. I was just messing around and wanted to only load up one tool for this part
A tool change didn't seem necessary to me.
I agree with you, I would also add an end mill and a spherical cutter. And it would be cheaper in relation to the price of the product. A 20 mm end mill costs $140
2 inch face mill would be my choice.
Одной двадцаткой 🤔 интересно)) а мы бы начинали с хай спид 25 и заканчивая фасончиком 😁😁
I think it's a Mazak VTC Maschine. RIGHT.
What’s tool life like at 1350 SFM (5/8” at 8250 rpm)? I need to do some experimenting I think. I’ve been running more like 400 SFM.
Study chip thinning
1018 or any 1000 series of steel are the aluminum of steels. you can really feed it hard and go very fast. uncoated carbide is prolly good at 5 or 600 sfm but anything with altin alcrn tialn coatings your talking 1000+ sfm. that coating produces a thin layer of aluminum oxide on the tool at high temperatures. which resists wear to the edge. which is why its better to mill steels with air blast only when using those coatings. using coolant cools the edge too fast and chips it up, fracturing the coating until it breaks away. which snowballs into a mess quickly. because you no longer have the oxide being produced if there is no coating.
Nice chips)
Is this Timelapse’s?
Hello experts, do you recommend which machine for milling hard steel for a budget of 6000 dollars? THANKS
Spend the 6k taking your work to a shop. No worthwhile machine for that much money
Wow! 🤤
What machine is this
An old Mazak VCN 530C
@@mjshorty19 could I use this machine to make slides for 3 printed firearms
@@andrewlozinak273 Guess you could if you had the proper licensing to manufacture firearm parts