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Do you want to make setup time more productive and reduce cost? Read on to learn tips on getting accurate setups done faster.

There’s more than one way to make holes, but some approaches are better than others. Working with customers from across every industry, our team gets to see what works and what doesn’t. These are a few of the interesting questions—and unexpected answers.

For manufacturers using milling chucks, pullout is a major issue, particularly when machining HRSA’s such as titanium or inconel.

No matter what, a new machine represents a significant cost in a manufacturing project. This investment can be compromised if it is not tooled up properly.

The return on investment from digital boring comes from the time saved making adjustments on the spindle, as well as the increased adjustment accuracy.

Learn more about the real-world applications of our Smart Damper milling and boring tools, and why they’re a great investment.

Machine shops of all shapes and sizes are facing more pressure than ever. While its primary purpose has traditionally been tool setup, tool presetters serve as both important tools and information hubs on the floor as technology advances.

We’ve seen and heard it all when it comes to boring holes. That said, there are always a few questions that pop up over and over. From optimizing modular boring assemblies to deciding between twin boring or high-feed milling, here’s some of our best boring advice.

​​​​​​​Pullout is a major issue facing manufacturers using milling chucks, especially when machining heat-resistant super alloys (HRSA) like titanium or inconel

MEGA New Baby Chuck is now available up to ø1" clamping for drills, reamers and finishing end mills with .00004" runout accuracy.