i've managed to ramp a blind hole with a 4" mitsubishi insert cutter with a .19 depth per revolution around the part 3.5" deep. had my 50 taper machine pegged at 105% the entire time it was pretty badass.
Haas should do a video on what you should do if you keep breaking taps using setting 130 or j values in the g84 line and how we can avoid these problems in the future
could you guys explain the benefits of indexable tooling vs a regular carbide mill ? I see you use both here but are their cost benefits ? efficiency benefits ?
Indexible is cheaper to replace saving money in the long run instead of buying a whole endmill you can buy an insert for less great for roughing as well. Not so much finishing the side walls that where the endmill comes in
1:31 if you look closely in the center of the cutter, you can see that something starts to glow. I think the depth per revolution is too steep for the tool.
@@hotlaprc1980 there are many variables ? 🤔 So which variables are tested ? Which ones should I take care of while using these Haas Inserts ? 😏 Are they even tested ? Why would company publish results ? Mmmm that would help them in Marketing ! 😇😁
Agreed, however that would be something the sales rep in their tooling and inserts dept. would be able to give. Also, the tool and inserts would have a standard chart (pamphlet) included with optimal speeds, feeds and depth of cut for generally used materials included.
Running coolant on an inserted milling cutter is a debatable thing, it does help clear chips but unless you can keep coolant flooding from every angle you will create heating and cooling cycles which the inserts do not like and this actually results in a shorter insert life. Carbide inserts can take being heated but not repeatedly heated then quenched. You are normally better off blowing chips off with air than coolant though with a finish face mill coolant will leave a better finish.
i've managed to ramp a blind hole with a 4" mitsubishi insert cutter with a .19 depth per revolution around the part 3.5" deep. had my 50 taper machine pegged at 105% the entire time it was pretty badass.
Came here for the chips, was not disappointed
Haas should do a video on what you should do if you keep breaking taps using setting 130 or j values in the g84 line and how we can avoid these problems in the future
What material, surfaced speed, and how deep are you going?
Spindle load on the full slot cut please :)
could you guys explain the benefits of indexable tooling vs a regular carbide mill ? I see you use both here but are their cost benefits ? efficiency benefits ?
Indexible is cheaper to replace saving money in the long run instead of buying a whole endmill you can buy an insert for less great for roughing as well. Not so much finishing the side walls that where the endmill comes in
1:31 if you look closely in the center of the cutter, you can see that something starts to glow. I think the depth per revolution is too steep for the tool.
How much material is left for finish with this 4130 steel?
Daniel Machado - Brazil
How long will it last ? Do you test them ? If so ? Can you release your Test Results ? I have seen no company publish their test results...
why would any company release test results. no 2 test are the same and there are many variables.
@@hotlaprc1980 there are many variables ? 🤔 So which variables are tested ? Which ones should I take care of while using these Haas Inserts ? 😏 Are they even tested ?
Why would company publish results ?
Mmmm that would help them in Marketing ! 😇😁
Agreed, however that would be something the sales rep in their tooling and inserts dept. would be able to give. Also, the tool and inserts would have a standard chart (pamphlet) included with optimal speeds, feeds and depth of cut for generally used materials included.
Beat cutter sir in ss materials
End mill type
Normal shops use 3 or 5 mm of clamping, why not do that then go fullslot and run
The machine won't hold it
I think the max depth on the inserts they were using was .217 also
@@jonathanseiber8599 how much is that in mm?
What I'm saying is, they don't conduct the test fairly. If they would hold the workpiece 5 mm in the vice, the part would fly off with those feeds
@@buzatuflorinalexandru5757 in that specific wise
Yes would have totally flew
In our vices no
No coolant?!
Running coolant on an inserted milling cutter is a debatable thing, it does help clear chips but unless you can keep coolant flooding from every angle you will create heating and cooling cycles which the inserts do not like and this actually results in a shorter insert life. Carbide inserts can take being heated but not repeatedly heated then quenched. You are normally better off blowing chips off with air than coolant though with a finish face mill coolant will leave a better finish.
@@phillhuddleston9445 yes, that makes sense, thank you for the thorough explanation. Experience speaks 👍💪
Hanzhen harmonic drive gear , robot arm gear , over 30 years experience ,
???
@@LordOfChaos.x its a bot
That music is terrible!!