Yeah gotta shovel a ton of chips after that. Been there done that ^^ An good job turning the thing with the forklift and not the crane. A ex co worker of me once almost tore down our 5 ton ovearhead when he turned around a chunk around triple the size of that thing (and nearly exactly 5 metric tons of weight) And very nice to see some proper feedrates for roughing such a chunk :D
People tend to forget how difficult it was to make something like this before cnc machining. Multiple men would be needed. One to machine out the main block. Multiple tool makers to make the different inserts, like corner blocks and the central form. All the inserts would have to have bolt holes and the main block would have to have matching bolt holes for fastening everything into place. That is after everything was ground to size after the individual heat treatments. Then hopefully everything was done correctly, that is the initial engineering and drawing to all of the individual parts being made correctly. Yes, something like this block could take a well supplied tool room a month or two in order to make. The good old days were a real pain in the ass.
A month or 2? From what I've heard that's bloody good going. I'm told maybe 2 complete dies in a year at a push. 5 years ago we knocked out 12 dies for Aston Martin prototypes in little over 6 months (we were working at about 150% though.. 🥵)
Nah. People don't 'forget'. Either they know because they've tried it, or they don't. I've worked with items this large (and larger actually) although in cast iron, which is a totally different story... both good and bad. The good is it's much easier to machine. Tha bad is it's hell of a mess ;-)
Pretty clueless comment. This is simple mold done in so called "monoblock" (or "monolith") style, one solid block. Most molds are still done normal/classic way (many separate parts, inserts and so on). CNC (or not) has nothing to do with it. Yes, it was harder to do on manual machines, tracing etc. But knowledge and skills were higher back then among mold/tool-makers. Modern CNC guys often lack basics. Mold is "done", but doesn't work properly. Machining a mold is only one step. Then you have assembly/fitting, startup, trials, maintenance and repair (and "monoliths" are harder to repair).
Watching your videos is always so relaxing. You make amazing parts that i could only dream of making, very impressive! It looks like you are having a lot of fun while doing it as well. Greeting from a Swedish machinist :)
I am 73 and did field service on cnc for 30 years I had my own machine shop for 5 years and hated small business, I now do 3d printing and cnc routing for fun, friends send me a photo, can you print, they have no understanding what goes into a stl or gcode file, I tell them to buy an epson printer !!!! its to bad good object scanners are pro only $$$
@@CncFrezar I have never claimed to be normal. For example, I spent my Saturday morning watching you guys turn a 2 ton block into a 1 ton block & 1 ton of shavings. What have I become?
Awesome video, on and machine I use I find a 100mm tool with 20mm diameter indexable tips. In the right grade of steel we get up to 3000mmpm feed with around 580 to 600 spindle speed quite comfortably taking 2-3mm deep cuts at around 60-75mm step over. Investing in a right angle spindle head could also dramatically increase productivity when roughing the sides.
Nice work, with the exception of the lifting, for the possibility of the chains slipping toward the center. Maybe a couple of boards as improvised spreaders. Thanks for sharing.
@@paulgrosfeld5297OK. Less load should be a better cut which results into longer tool live and/or a faster cut. Since you cannot drill full holes to remove all material it my need a special strategy , so I understand to do it the conventional way. It would be interesting to compare both in mass production. My thoughts.
love the vids but when you are editing could you pleas put a cap on the audio frequency to block the high pitched air sound ? i can feel that in my neck
So I have no idea about CNC machining or anything but do you guys vacuum up those chips and recycle them? Cause they could be melted back down into a block couldn't they?
Guys imagine this piece of plate sitting in the shop for a week, boss says "x y z is more important than that". Another week goes by "we still have time for that" Today: "Alexandr this is very important and very urgent!!! Can you make this till tomorrow?? Dont mess this up!!!" Also alexandr: *calls in sick tomorrow*
I miss machining steel I only machine Pure copper at my job, any particular reason you don’t use coolant? I never used coolant machining steel because of the open machine it would make a huge mess, also if you don’t have good flood coolant it will chip your inserts faster. I’m assuming this part is for mould making ? I do all semiconductor work,
@@ShainAndrews yeah that’s called ceramic inserts, but go on about how I might not be a machinist because of one statement and be an asshole for no reason when the producer of the video stated I was right that air is better than coolant in this situation. He isn’t using ceramics here, that’s obvious . I see from your comments on other videos you just stir up shit on other pages for no reason.
Ahoj pekná práca! Predpokladám, že sa jedná o oceľ triedy 19... Skúšali ste porovnať životnosť plátkov pri chladení s hydrolom/bez ? Viem, že teplo z miesta rezu odvádzate do triesky, len ma to zaujímalo aký by bol rozdieľ, či by to skôr zalepilo hranu na brite alebo by bol výsledok cca rovnaký. Neviem či ste teda používali chladenie vzduchom (cez hadicu alebo priamo cez vreteno?) Ešte sa spýtam aký uhol zanárania a o koľko bol nižší posuv pri zanáraniach do materiálu pri tej 35tke fréze, ktorá bola v 6tej minúte. Na to v akom dlhom upínači bola upnutá, sa zanárala teda veľmi potichu (žiadne pazvuky)
Ahoj dík. Pri hrubovaní vždy používame vzduch a na tieto plátky sa aj nedoporučuje emulzia. Je to lepšie aj preto že ich odfukuje preč. Skúšali sme aj emulziov plátky od Iscaru ale životnosť sa nijako nezlepšila. Fréza sa zapichuje po uhlom 5 stupňov. Tieto plátky od Palbitu sú výborné na nekalené mat a na slabšie mašiny. Majú trochu ostrejší uhol čela tak idú aj potichšie. Na kalené používam radšej Pokolm.
Polerujecie formy sami? Jak jest u was z jakością powierzchni po wykańczające obróbce, zauważyłem ze często wykańczacie kształty głowicami kopiującymi na bardzo długich wysięgach nie ma zadrgań na powierzchni? Widziałem ze korzystacie z cimatrona jak wobec was wypada na tle innych programów CAM/CAD przy programowaniu skomplikowanych kształtów form? Jeśli była by taka możliwość miałbym do Ciebie kilka pytań na priv, jestem programista i pracuje przy formach wtryskowych w środowisku hypermill
Cześć. Tak, sami polerujemy formy. Mamy do tego narzędzia. Czasami przy większych obciążeniach jakość powierzchni pogarsza się. Zajmie się tym narzędziowiec.Cimatron specjalizuje się głównie w formach, moim zdaniem to doskonały cad/cam.Ale mogę go porównać tylko z EDGECAM, ponieważ pracowałem nad nim 7 lat. EDGECAM jest naprawdę słaby w porównaniu do Cimatrona
zatial len hrubovanie .. bude video s dokoncovanim tvarov ? ptm tie tvary viete aj pomerat priamo v stroji sondou alebo v akej tolerancii su tie najpresnejsie tvary ? Dakujem
Why not rough out with a 315mm 45° indexed face mill, mid rough with D50R0.8. Then use a bull nose end mill to finish it all off, maybe append another finishing pass with a new tool for very tight tolerances? This looks like a job we could confidently cut the machining time in half.
Nice job! So many questions Like how much stock to leave did you do prior to heat treat. How much did it potato chip removing that much material? Nicely done!
Super videa, platky jsou inserts ne slices, to se pouziva u dortu. :D Delam uz leta obrabeni ve Skotsku, kdybys potreboval pomoct s nazvoslovim, rad poradim. ;) Slovnik neni optimalni.
Hi. Anyone suggest what type of clamping is used here because I'm facing many problems on work holding since i use bottom screw lock on base plate method
hello,could you tell me the cutting parameters for the very long tool with shrink holder during roughing operation in the first coordinate. by the way,what's the material for this part? recently I will machining the Titan material with 360mm whole length.
Why do you not use coolant, is there a reason or is the machine not equipped with it or is it a special steel? Also how long does a part like this take to manufacture, must be days. Greetings from germany
Typical stupid comment. The answer is (in most cases): you can't see anything with coolant, that's why people on TH-cam film without it (and morons comment: "no coolant?")...
Thanks for the video, awesome nice work. What would happen after stress release and hardening ?, will the surface be grind to measure or using CBN insert for the final cut.
What a fat Workpiece. Well done, but why no colant? filming issue? I go faster with coolant. But my biggest is 12mm dia, but most under 6mm for small pieces. You need always coolant or your small cutter glows.
Another moron... TH-camrs often film without coolant just for the purpose of filming (otherwise you can't see anything). Plus, cooling with air is possible.
Only using inserts? That's going to introduce a ton of tension in the material. Best method is using high feed endmills. Usually they've got chip breakers grind ito them and they can go up to 0,25 mm per tooth with full depth of cut at 10% radial. Way less tension and most of the time even quicker
Hi guys. This was such a simple job but an awful lot of mess. Now, after roughing, the part goes for hardening.
Yeah gotta shovel a ton of chips after that. Been there done that ^^ An good job turning the thing with the forklift and not the crane. A ex co worker of me once almost tore down our 5 ton ovearhead when he turned around a chunk around triple the size of that thing (and nearly exactly 5 metric tons of weight) And very nice to see some proper feedrates for roughing such a chunk :D
You call this a simple job? Nicely done as always. 👍
@@ChrisMaj OK. Dziękuję przyjacielu.
@@Shieldbiter1000 It is a gravity form.
@@Shieldbiter1000 looks like another gravity mould. Basing that off the feed and filter slot that were being machined at the end.
People tend to forget how difficult it was to make something like this before cnc machining. Multiple men would be needed. One to machine out the main block. Multiple tool makers to make the different inserts, like corner blocks and the central form. All the inserts would have to have bolt holes and the main block would have to have matching bolt holes for fastening everything into place. That is after everything was ground to size after the individual heat treatments. Then hopefully everything was done correctly, that is the initial engineering and drawing to all of the individual parts being made correctly. Yes, something like this block could take a well supplied tool room a month or two in order to make. The good old days were a real pain in the ass.
A month or 2? From what I've heard that's bloody good going. I'm told maybe 2 complete dies in a year at a push. 5 years ago we knocked out 12 dies for Aston Martin prototypes in little over 6 months (we were working at about 150% though.. 🥵)
Oh wow to be honest I didn’t i would take that long. Thanks for sharing
Nah. People don't 'forget'. Either they know because they've tried it, or they don't.
I've worked with items this large (and larger actually) although in cast iron, which is a totally different story... both good and bad. The good is it's much easier to machine. Tha bad is it's hell of a mess ;-)
You anit shitting it would, and the next guy who gets it is thinking ah shit.
Pretty clueless comment. This is simple mold done in so called "monoblock" (or "monolith") style, one solid block. Most molds are still done normal/classic way (many separate parts, inserts and so on). CNC (or not) has nothing to do with it.
Yes, it was harder to do on manual machines, tracing etc.
But knowledge and skills were higher back then among mold/tool-makers.
Modern CNC guys often lack basics. Mold is "done", but doesn't work properly.
Machining a mold is only one step. Then you have assembly/fitting, startup, trials, maintenance and repair (and "monoliths" are harder to repair).
Watching your videos is always so relaxing. You make amazing parts that i could only dream of making, very impressive! It looks like you are having a lot of fun while doing it as well.
Greeting from a Swedish machinist :)
Thanks friend
I am 73 and did field service on cnc for 30 years I had my own machine shop for 5 years and hated small business, I now do 3d printing and cnc routing for fun, friends send me a photo, can you print, they have no understanding what goes into a stl or gcode file, I tell them to buy an epson printer !!!! its to bad good object scanners are pro only $$$
Those chips are gorgeous!
My nightmare is that i get a job like this but have to do it with only one HSS end mill :)
Could be worse, boss could hand you a 10" bastard file... 😕😂
😁😁😁
@@peterfitzpatrick7032 damn ... reminds me of my time doing the "U Stahl" or translated "U profile steel" or something like that and its bad
L👀K at those PERFECT blue horseshoe chips!
That steel is butter to this mill!
Michael 🇦🇺
1:52
In soviet Slovakia, freshly milled surface flattens YOU!
Finally a normal meaningful comment!
@@CncFrezar
I have never claimed to be normal. For example, I spent my Saturday morning watching you guys turn a 2 ton block into a 1 ton block & 1 ton of shavings.
What have I become?
@@digitalradiohacker It is OK. You have my sympathies.😀👍
You make more chips in a Day than I make in a month 💪👍
It would be nice to know what it is been made in the begins
Awesome video, on and machine I use I find a 100mm tool with 20mm diameter indexable tips. In the right grade of steel we get up to 3000mmpm feed with around 580 to 600 spindle speed quite comfortably taking 2-3mm deep cuts at around 60-75mm step over. Investing in a right angle spindle head could also dramatically increase productivity when roughing the sides.
600의 rpm 3000의 피드? Ap2-3? 혹은 ae?
최종깊이 65mm~70mm?
공구가 버텨주나요?
How often do you have to change the inserts?
About every 4 hours
So enjoy watching you guys work!
I’m most impressed with that wooden pallet at the beginning…
At least something 😀
@@CncFrezar 😉
How often do you change inserts in this kind of job?
Hi. One blade of a slice for about 4 hours
Who makes the clamps on the table
upinace.cz
Nice work, with the exception of the lifting, for the possibility of the chains slipping toward the center. Maybe a couple of boards as improvised spreaders.
Thanks for sharing.
I agree very poor lifting there no bites to stop it falling or slipping
Nice! I have a question about rough plunging; is it really not faster, with less tool wasting and has less load on the machine?
It's probably faster. But it's more convenient this way.😁
It's not. Side milling is almost always the fastest way for removing material. Tool wear is about the same.
@@paulgrosfeld5297OK. Less load should be a better cut which results into longer tool live and/or a faster cut. Since you cannot drill full holes to remove all material it my need a special strategy , so I understand to do it the conventional way. It would be interesting to compare both in mass production. My thoughts.
Great video. What kind of clamps are you using for work holding? They seem stiff 👍
love the vids but when you are editing could you pleas put a cap on the audio frequency to block the high pitched air sound ? i can feel that in my neck
For what is this mold used for?
Die forging, pressed metal sheets or something totally different?
So I have no idea about CNC machining or anything but do you guys vacuum up those chips and recycle them? Cause they could be melted back down into a block couldn't they?
Yes, they are recycled
Салют коллеги!!! Хорошая работа!
Спасибо друг
what vice do you use and where can i buy
Hi! upinace.cz
Where are the leader pin holes?
I do not know
It looks like a mold plate to me, an A-plate to be exact, I've seen a lot of them. If it's a die-cast mold, they'll be in the holder blocks/retainer.
@@CrazyTony65 It can be, I'm not arguing.
Just out of interest how long was the cycle time?
Hi. I can't talk about that
Amigo mais uma vez um ótimo trabalho. Só uma pergunta, como eu encontro pra comprar esse tipo de fixação que vc usou??
Hi upinace.cz
what spindle load did you have in the roughing?
Hi. About 15%
@@CncFrezar Why not use a bigger tool to finish the job faster?
After that, my spindle bends more and there are big deviations
@@CncFrezar have you tried coromant dampened tools?
@@meocats no
Guys imagine this piece of plate sitting in the shop for a week, boss says "x y z is more important than that".
Another week goes by "we still have time for that"
Today: "Alexandr this is very important and very urgent!!! Can you make this till tomorrow?? Dont mess this up!!!"
Also alexandr: *calls in sick tomorrow*
good job CncFrezar
Thanks friend
I miss machining steel I only machine Pure copper at my job, any particular reason you don’t use coolant? I never used coolant machining steel because of the open machine it would make a huge mess, also if you don’t have good flood coolant it will chip your inserts faster. I’m assuming this part is for mould making ? I do all semiconductor work,
You assume well, it's a form. We use air instead of liquid, it's better.
@@ShainAndrews yeah that’s called ceramic inserts, but go on about how I might not be a machinist because of one statement and be an asshole for no reason when the producer of the video stated I was right that air is better than coolant in this situation. He isn’t using ceramics here, that’s obvious . I see from your comments on other videos you just stir up shit on other pages for no reason.
Mám otázku, riešili ste niekedy odstraňovanie dráh po nástroji, ktoré vznikajú na kuse ?
Ahoj. U nás to zabrúsi nástrojár
@@CncFrezar kolko sa necháva prídavok na to zabrúsenie ?
Muy buen trabajo!!!
La máquina es Visión Wide??
uchine ( made in taiwan)
I use 700 feedrate and 2300 rpm on 16 2-cut sandvik. I think, that's good for insert durability. What do you think?
It depends on the material
Looks nice. What’s it for?
Hi. It's a mold.
No oil and water?
Does that get ground to final spec after hardening or are you able to machine it still?
Hi. We continue only when it comes from hardening.
Ahoj pekná práca! Predpokladám, že sa jedná o oceľ triedy 19... Skúšali ste porovnať životnosť plátkov pri chladení s hydrolom/bez ? Viem, že teplo z miesta rezu odvádzate do triesky, len ma to zaujímalo aký by bol rozdieľ, či by to skôr zalepilo hranu na brite alebo by bol výsledok cca rovnaký. Neviem či ste teda používali chladenie vzduchom (cez hadicu alebo priamo cez vreteno?) Ešte sa spýtam aký uhol zanárania a o koľko bol nižší posuv pri zanáraniach do materiálu pri tej 35tke fréze, ktorá bola v 6tej minúte. Na to v akom dlhom upínači bola upnutá, sa zanárala teda veľmi potichu (žiadne pazvuky)
Ahoj dík. Pri hrubovaní vždy používame vzduch a na tieto plátky sa aj nedoporučuje emulzia. Je to lepšie aj preto že ich odfukuje preč. Skúšali sme aj emulziov plátky od Iscaru ale životnosť sa nijako nezlepšila. Fréza sa zapichuje po uhlom 5 stupňov. Tieto plátky od Palbitu sú výborné na nekalené mat a na slabšie mašiny. Majú trochu ostrejší uhol čela tak idú aj potichšie. Na kalené používam radšej Pokolm.
@@CncFrezar áno pokolm je na kalené roboty super 👌. A pri zanáraní posuv zostáva rovnaký?
30% posuvu
@@CncFrezar ďakujem 👌
Hustý, Děkuji za video. Jaký máte ŘS ve stoji?
Fanuc 32i model B
how long have you milled?
Hi. I can't talk about that
Polerujecie formy sami? Jak jest u was z jakością powierzchni po wykańczające obróbce, zauważyłem ze często wykańczacie kształty głowicami kopiującymi na bardzo długich wysięgach nie ma zadrgań na powierzchni? Widziałem ze korzystacie z cimatrona jak wobec was wypada na tle innych programów CAM/CAD przy programowaniu skomplikowanych kształtów form?
Jeśli była by taka możliwość miałbym do Ciebie kilka pytań na priv, jestem programista i pracuje przy formach wtryskowych w środowisku hypermill
Cześć. Tak, sami polerujemy formy. Mamy do tego narzędzia. Czasami przy większych obciążeniach jakość powierzchni pogarsza się. Zajmie się tym narzędziowiec.Cimatron specjalizuje się głównie w formach, moim zdaniem to doskonały cad/cam.Ale mogę go porównać tylko z EDGECAM, ponieważ pracowałem nad nim 7 lat. EDGECAM jest naprawdę słaby w porównaniu do Cimatrona
What place do you guys buy your bits from? Also, where is your shop based out of?
Hi. We are from Slovakia.
What is this part used for?
Hi. I can't talk about that
How many hrs
Hi. I can't talk about that
Great job!!!
Please tell me what is the approximate processing time for this form?
zatial len hrubovanie .. bude video s dokoncovanim tvarov ?
ptm tie tvary viete aj pomerat priamo v stroji sondou alebo v akej tolerancii su tie najpresnejsie tvary ? Dakujem
Ahoj. Len hrubovanie viac nemôžem zverejniť. Tvary sa kontrolujú na 3D meraní. Ale existuje aj cyklus na meranie sondou ale ho nevyužívame.
Nice work!
Merry christmas to you and the guys! =)
Thanks friend
What software do you use for programming
Hi. Cimatron 15
Vision wide?
what is the actual part you made?
How many hours?
What is being made here?
Hi. It is a mold for casting.
show us chips flowing out of the chips conveyor
OK. Next time
Pieknie, jak długo trwała obróbka ?
Cześć. Nie wolno mi o tym mówić
@@CncFrezar dziękuję. Mega filmik
@@zajawamotocykle9256 Dziękuję
@@CncFrezar Говорить и не надо, просто мигните один раз, если три дня, если неделю, - два раза!
Hi, I am curious about what happens with such a lot of steel scrap chips. Are they recycled? Best Regards from Brazil. Dieter
Hi. Of course it is metal and it is handed over for recycling
how much does a 1.9 ton chunk of steel even cost ? im guessing its double scrap prices, maybe triple
I can't tell you that, I'm just a worker.
Very nice work guys! Always a pleasure to watch your video's. Thanks for sharing 👍👍
Thanks
:D nojo to nechces uklizet, krasna prace, ty feedy pouzivame taky, ale na podstatne mensi kusy :D . kolik byl strojni cas ?
Vďaka za pochvalu. Ale šéf povedal žiadne časy nemôžem zverejňovať 🙃
@@CncFrezar to chapu. tak at se dari kolego .
Дружище можешь модель боковых прижимов выложить если есть, хорошая штука
Я купил это здесь upinace.cz
@@CncFrezar спасибо
Why not rough out with a 315mm 45° indexed face mill, mid rough with D50R0.8.
Then use a bull nose end mill to finish it all off, maybe append another finishing pass with a new tool for very tight tolerances?
This looks like a job we could confidently cut the machining time in half.
With larger cutters, the spindle bends a lot. That's why we don't use them.
Nice job! So many questions Like how much stock to leave did you do prior to heat treat. How much did it potato chip removing that much material? Nicely done!
Hi. We removed about 1000 kg of chips
Super videa, platky jsou inserts ne slices, to se pouziva u dortu. :D Delam uz leta obrabeni ve Skotsku, kdybys potreboval pomoct s nazvoslovim, rad poradim. ;) Slovnik neni optimalni.
Dík. Ja len čo Google translator vyhodí 😀Po anglicky viem len madr fakr.🙂
Awesome 🤤😎! Greetings from Germany
Thanks
Hi. Anyone suggest what type of clamping is used here because I'm facing many problems on work holding since i use bottom screw lock on base plate method
upinace.cz
Isn't better to cast rough product and then finish it on CNC machine?
BTW, are you a Czech?
I do not know. I'm just a worker. Why do you think I'm Czech?
@@CncFrezar Because frézař means miller and your name is Miroslav, you are obviously Czech. 😀 Or maybe Slovak?
Ale áno sme Slováci 😄 Len som chcel vedieť ako si na to prišiel.
@@CncFrezarAha, v popisku kanálu máte frézar, ne frézař, teď to dává smysl 😀
hello,could you tell me the cutting parameters for the very long tool with shrink holder during roughing operation in the first coordinate.
by the way,what's the material for this part?
recently I will machining the Titan material with 360mm whole length.
Hi. S1700 rpm F3000 ap 0.3mm mat 1.2343
Awsome video.
How many machining hours did it take?
Hi. Thanks. I can't talk about times.
can you send the data as xt
Zdravím len pre moju zaujímavosť.
Ake bolo ap pri čelnom fr. Plochy?
Ahoj. 2 až 3.5 mm lebo to bolo dosť krivé.
@@CncFrezar zdal sa mi dosť malí posuv a odhadnúť záber s videa sa nedalo. Dik
What is it? 🤔🤔🤔
Mold for casting.
Awesome work!!👍🏾
Thanks
Why do you not use coolant, is there a reason or is the machine not equipped with it or is it a special steel? Also how long does a part like this take to manufacture, must be days. Greetings from germany
Hi. We use air cooling instead of coolant.
if you use those cutters, air is better for tool life.
Typical stupid comment. The answer is (in most cases): you can't see anything with coolant, that's why people on TH-cam film without it (and morons comment: "no coolant?")...
parece que aun no esta finalizado
Sí. Estará listo solo después del tratamiento térmico.
Thanks for the video, awesome nice work. What would happen after stress release and hardening ?, will the surface be grind to measure or using CBN insert for the final cut.
Well thank you. After hardening, it will be milled again.
Why CBN? Carbide is not enough for hardened part? Typical range for molds is 40-50 HRC-ish range, carbide will handle it.
Always so funny-looking when the tool looks way too small for the spindle :)
What is it?
Mold
👍 Pekná práca
Ďakujem
Cool mold
Nothing special in this industry. Another boring day at the office/toolroom.
Что это получилось?
Pěkně kucí 😉👊
How come you don't use coolant.
I use air cooling
Another clown (Steven L.). Besides air cooling, there is one simple reason: you can't film much with coolant flood.
cute little millhead for such a big part
А где табличка "Экономьте металл"?
Должен ли он быть там?
@@CncFrezar Это наш местный мем) ты не поймёшь)
@@Илюминат Теперь мне ясно!😀
3 d finish die ka video
Beautiful blue chips
What a fat Workpiece. Well done, but why no colant? filming issue? I go faster with coolant. But my biggest is 12mm dia, but most under 6mm for small pieces. You need always coolant or your small cutter glows.
No cooling fluid?
Another moron... TH-camrs often film without coolant just for the purpose of filming (otherwise you can't see anything). Plus, cooling with air is possible.
This is for a space ship I hope 😄
Yes, but I must not talk about it
Step 1: invent casting. Step 2: profit. :)
🎉🎉
Hi risk job, hard to manage
it's alright
We are making the case to mount this device... sorry guy i can't use english
Please don’t switch between units of measurement. 1.9 tons to 900 kgs. ?
OK
Nice chip
why no used water?
I use air instead of water
@@CncFrezar thanke
You will not see much with "water" (coolant), so TH-camrs often switch it off just to film!
Only using inserts? That's going to introduce a ton of tension in the material. Best method is using high feed endmills. Usually they've got chip breakers grind ito them and they can go up to 0,25 mm per tooth with full depth of cut at 10% radial. Way less tension and most of the time even quicker
Would be unusual to use endmills for roughing. And now at hardening any stress will relax.
Watch (and read titles) carefully before commenting. This is only roughing stage...
"Tension" (you meant "stress"?) is not your problem/business.
@@qwertyuiop2895 you seem angry
Поехали!
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가공속도가 너무 느리군요? 아주 느린 feed?
Fkn beautiful ❤