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The advantages of using 3+2 machining positioning on a 5-axis machine are too great to ignore. Learn all about it.

From easier, faster setups to tighter tolerances and better control options, performing 3+2 machining on a 5-axis system can help ensure some of the most accurate and efficient part-making in today’s manufacturing.

There are many reasons for using 3+2 machining on a 5-axis machine. Maybe the big contract for the medical implants your shop used to justify the purchase of a 5-axis machining center ended and you’re looking for new work. Perhaps you’re having a hard time meeting true position requirements between two part features that are currently being machined on separate operations. Or maybe you’re tired of all the parts waiting to be completed on your 3-axis machining centers. Whatever the situation, using your 5-axis machine to do 3+2 work could be the best decision you’ve ever made. Here’s why.

Adding Up the Advantages of 3+2 Machining

Need convincing? Let’s review the setup, tolerance, metal removal and flexibility that can be accomplished with 3+2 machining on a 5-axis machine.

Assuming your parts are orthogonal and need machining on all six sides, which is common for most milled parts, a 5-axis machine eliminates two-thirds of the setups and part handling. Fewer operations mean fewer fixtures, reduced WIP and less chance that a part will end up in the scrap bin along the way. It also means less overproduction in anticipation of lost parts during the manufacturing process. Instead of five or six extra parts, just one will now suffice. 

Geometric tolerances between features on different sides of the workpiece are easier to hold when completed in the same operation. The ability to tip parts at whatever angle you desire often means tools can be made shorter and therefore more rigid, improving tool life and part quality while increasing metal removal capabilities. Because it’s easy to rotate around to multiple sides of the workpiece in a single operation, there’s greater flexibility in the sequencing of the machining steps. Deburring of intersecting features is much simpler as well.

A 3+2 “positioning mode” on a 5-axis machining center is not limited to only 90-degree movements. The angled holes in the hydraulic manifolds you’ve been working on can now be completed without an additional setup or fixture. The same goes for the threaded boss on the F-16 valve body that sits at an awkward 27 degrees, or the tapered and undercut sides of the mold you just quoted. These features are easily produced on a 5-axis machining center, even if you never do use it for “true” 5-axis work.


What’s your take? Talk to your peers in the community forum .


3+2 Machining: Primed for Accuracy

Despite the clear advantages, however, some shops remain reluctant to pursue a 3+2 machining strategy on a 5-axis simultaneous machine tool. It might be considered overkill, for example, to use one of the most capable and technologically advanced machines in the shop in this manner, especially compared to installing a tilt-rotary trunnion table on a 3-axis vertical machining center.

Yet, 5-axis machining centers offer control features not found on their 3-axis cousins, trunnion or not. Volumetric accuracy is assured with “auto tuning” capabilities, which automatically compensate for and adjust kinematic inaccuracies. Tool center point control and tool vector input simplify programming, and dynamic work offsets simplify setups. With their advanced controls, five-axis machines are, quite simply, better at multisided machining, whether used in simultaneous mode or not.

Cool, but now what? What about the workholding and the tool holders? Must a shop make even more investment in tooling once the decision’s been made to go 3+2? The good news is that—provided the spindle taper is the same—all of the tool holders currently on your 3-axis VMC can be used on a 5-axis machine. So, too, can be the vises, fixtures and chucks, although a few caveats exist.  

It’s Tool Time: What You Need for 3+2 Machining

Let’s start with the tool holders. Anyone buying a new machine tool, whatever it is, should leverage the opportunity to maximize its potential with high-quality tooling. If an HSK or similar dual-contact spindle is available, then by all means get it. The greater speed and accuracy of a modern interface more than makes up for the additional tooling cost.

Go deeper. Check out “Lessons in High-Performance Machining: Don’t Forget the Tool Holders.”

Also, this might be the perfect time to ditch the sidelock and collet chucks you’ve been using for shrink-fit or hydraulic holders, thus keeping pace with your machine’s capabilities.

On the workholding side, life just became much easier. A wide assortment of 5-axis vises are available, most of which grip the bottom 1/8-inch or so of the workpiece and lift the part high enough to provide full access to all sides. When the part’s done, just slice away the sacrificial material and machine whatever remains on the bottom of the part.

While you’re at it, why not equip your new 5-axis vises with a zero point or comparable quick-change clamping and positioning system? Unlike a 3-axis VMC, where the entire table can be filled with parts, machining with 3+2 generally means one workpiece at a time. A zero-point system makes it easy to get parts in and out of the machine quickly, and it reduces setup times to boot.

How do you use 3+2 machining to your shop’s advantage? Do you use it on a 5-axis machine? Share your tricks and tips.

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Basically 2,3-axis CNC machines have now led on to a more improved, more liked 5-axis CNC machines. While expensive, 3+2 axis and 5-axis machines are now a staple in almost every CNC machine shop. It’s imperative that both large-scale and small and medium manufacturing units are utilizing the one and many benefits of this machine type – who is going to pass the opportunity to get better productivity, higher accuracy at much lower costs (leaving the initial set-up cost, of course). Let's check out more Benefits of using 5-axis CNC Machining.

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