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When it comes to aerospace components, the slightest imperfection could be catastrophic. Our experts answer five questions about boring precision holes on aerospace parts.

Whether you're performing rough boring operations or precision finishing work, there are a lot of considerations that go into the job. Starting with the right boring head is the first order of business, and there are several considerations to make an informed decision.

Ansonia Manufacturing, the only machine shop in the town of Sonoma, California, discovered the EWN2-32ExER32 boring head and used it to complete a tricky hardware component job for a “live” glass art sculpture.

In an effort to capitalize on the success of Steven Covey’s bestseller, The 7 Habits of Highly Effective People, we thought we could do Mr. Covey one better with the 8 Habits of Highly Effective Boring.

Safety in the shop involves careful handling of tooling. Get tips to help ensure tooling is set up properly, cared for and keeps your team safe.

Machinery tooling and equipment that get parts produced the fastest is always the best choice, right? But what else needs to be considered when choosing equipment for low- to mid-range production volumes?

Common boring mistakes that are costing you time & money—and how to fix them

Fine boring heads provide high-precision finishing options for many applications, however, fine boring can be a delicate operation that can go awry. Check out these troubleshooting tips.

Even the most well-planned boring process may not achieve the desired result. We’ve provided solutions to common rough boring problems to help get you back on the road to productivity.

When it comes to boring, there are several factors that can lead to poor performance. Whether it’s long cycle times, short tool life or poor bore quality, any or all these factors may need to be addressed in order to increase productivity. Although different, these issues are often closely linked in a given application.

Enhance your machining skills by understanding when to use balanced cutting for precise straight holes and stepped cutting for efficient heavy cuts—ensuring smarter tool choices and project success.

There are many advantages to turning (pun intended) to an underutilized operation that virtually every machining center is capable of: OD turning — otherwise known as “outer diameter turning”, “pin turning”, or “boss milling”.

Boring tool performance depends greatly on the Length-to-Diameter (L:D) Ratio of the application. While this is a straightforward calculation, the Length and Diameter values to be used may not be that clear.

Learn how high-quality boring tools and digital technology improve accuracy, reduce downtime and increase ROI, helping shops overcome common challenges and achieve more consistent machining results.

We’re highlighting yet another new product this week that makes high performance and precision easier.