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If there’s anything we love as much as the sound of those engines, it’s the manufacturing technology and know-how that go into making high-performance, race-winning cars. Together with Team Penske, and just in time for the 2020 season start at Daytona, we are launching a series of short videos to talk machine shop.

The manufacturing process of boring is enlarging a hole in a piece of metal. Different kinds of boring tools are available for boring operations.

As a raw material, tungsten carbide is a limited natural resource and a widely popular tool material due to its hardness and heat resistance. We can both save money by reducing the consumption of carbide and help our environment by fully utilizing every tool before recycling the rest.

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

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

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

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.

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.

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.

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.

Over the last couple of decades, digitization has increasingly crept into our lives. In the metalworking world it’s undeniable. Digital boring heads have emerged as indispensable time-saving and quality-ensuring tools in machine shops.

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

Machining at higher speeds can save time and money, however, increasing the speed also means increasing the inherent risk in the situation. To maximize speed potential, a holistic approach that considers tool, holder, machine and operator is essential.

We wrote the book on boring. Truth be told, the book was written a long time ago by Kaiser, and now you can get your own copy.

Dialing in a finishing job can be meticulous, with several measurements, adjustments and discussions taking place. That not only costs time, but those tool touches and interactions introduce some risk inside a shop. Our next boring innovation will help eliminate many of those repeated interactions and extra adjustments.