Understanding Smoothing
So sadly I see I may have killed this post??? Dang it I hate my life!!! If I did kill it I'm sorry 😕
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I was hoping others would continue to add their experience to this excellent topic "Understanding Smoothing"... as this is the first time I was included in a post on this forum topic I would like to see more!
BTW @Steinwerks in addition to others, I meant to engage you in my last post but missed crediting you ... I greatly appreciate all the contributions you make to this forum (and I like beer), while we've not interacted to any mention-able degree your expertise is greatly appreciated. I'm a relative noob to Fusion 360 CAM. And that appreciation also goes to @HughesTooling who has answered ****loads of questions and of course @daniel_lyall who is a constant advocate here. And @LibertyMachine always answering questions with solutions. And my Pocket NC fellow enthusiast @xander.luciano finally @al.whatmough who is a major driving force for our Fusion 360 CAM interest.
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So I'm not stroking anyone here, just acknowledging what I see day after day on the CAM forum.
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You are all very interesting peoples... Like each of you I have my share of stories that you can't just make up right?. I greatly value each of you investing yourselves on this forum. Please don't stop.
I would like to challenge any of you who would be open to a continuation of advanced topics? Like perhaps "Understanding Chip Load" from a 2D and 3D aspect? I've used many CAM systems over the years and it's only been in recent years that you can actually obtain real tangible feed and speed information in context to the volume of engagement.
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Or what constitutes a proper 5 AXIS Machining and Validation Artifact?
That is a part that can be cut with the sides of a tool and also the tip and in 2X to 5X modes and everything math wise is accurate. But more importantly specific cuts are made with the side of the tool that cross validates adjacent cuts with the tip. And don't forget all the COAXIAL alignment aspects. Most importantly it is considered an artifact as you then measure it and define how it ended up. And you can compare it to the perfect target. And it shows you what your reality is. These are common with CMM's but with Fusion 360 5Axis simultaneous around the corner this is something we should seriously collaborate on. To define together and make it procedural with tool paths and how they all correlate into validating your machine.
A LITTLE HISTORY FROM MY PERSPECTIVE: I think of CAM knowledge as a journey where we move along through time... we encounter new things that are improvements. We are always striving for the optimal CAM tool path strategy. And as we discover new things the current meta changes. That is the preferred choices that people naturally use. So consider REST milling an example of a discovery. (I know the inventor) While it was a huge place in development to help us get to where we are, it's not the destination just a stop on the way on greater knowledge. We recently have added high speed machining AND support for variable helix cutters and advanced machine tools.
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TODAYS REALITY: Fast forward to today, we have machine makers like Pocket NC and Mori DMG. Then on the cutter side Harvey Tool and also SwiftCAR. Each represent a niche market place. And there is a myriad in between of legacy tired machines like Hurco's and Fadals etc. Fusion 360 is poised to help cover all of these needs. REACHING OUR POTENTIAL: We need accurate setups to drive our machine tools efficiently. And the material knowledge, machine knowledge, work holding knowledge, cutter knowledge, and cam knowledge to drive our efficiently drive machines.
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So when your engaging someone new to machining and they want to machine Wax, Hard Plastics, Aluminum and Brass on a light machine what do you tell them?
WHERE AM I GOING WITH THIS... AND WHERE SHOULD YOU BE GOING?
Getting a job done ASAP is where it's at... Pretend you could afford a high end Mori Seiki Mill (I have 3 at www.rmbproducts.com) and suppose you were offered a job to make a mold out of steel for PFA plastic. You select to best steel and you are given a small window to get the job done. Not in weeks but in days. And your success in cost is based on delivery and breaking even+ That includes time to do the job and tooling.
Consider these two screenshots below.
I'm describing the exact same machine, The exact same material, the exact same cutter, and I am describing even the same exact depth of cut. But look at the speeds and feeds. This is a volumetric assessment based on a change in radial load on the cutter. That is what we know as step over or optimal stepover.
Now the mind blowing idea is we accept a constant feed rate, and while we can also use feed reduction in corners we are not optimal. Wait we can buy an outrageously priced license of Vericut Optipath that a single license is enough to pay for Fusion 360 for 10 years no joke. So consider cut optimization not only as a 2D concept but as a function of total chip load as a function of cut depth WITH ideal stepover WITH the CONTOUR of your part shape WITH your machines rigidity and WITH adequate workholding rigidity.
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Well that is enough to pop a few brain cells.
DO YOU GUYS THINK ABOUT THIS STUFF??? HOW DO YOU ADDRESS THE PRESSURE TO PERFORM AND ACCEPT THE DEMAND?
I think about this stuff all the time... Each one that replies is the winner of a chicken dinner, and all the beer you can drink tomorrow. you have to show up in Colorado. I suppose you can smoke freely here if your into all that. Ok on that last note stay righteous man and peace out.
That's probably a better question for AvidCNC 😉
Seth Madore
Customer Advocacy Manager - Manufacturing