Extended bore systems
Modern engineering technology has enabled us to design and manufacture components whose dimensional and positional accuracies are of the highest order. Such components often have to be machined with high precision in order to meet the required specifications. This has led to the development of a range of systems and processes for the machining of such components and, most commonly, extended bore systems.
The extended bore process is based upon a technique called broaching. Broaching is the process of removing material from a part by pushing or pulling a tool through it. There are two main types of tool used in broaching: solid and adjustable. The solid broach is a single piece of solid material, usually tool steel. It is designed to cut a single bore in one pass and is usually straight, though it can be curved. The adjustable broach is a more complex assembly which is designed to cut multiple, repeating bores.
In extended bore systems, the adjustable broach is modified to create a system which can deliver a variety of different bore sizes and shapes, depending on the requirements of the application. The tool may be adjusted in a vertical direction to create a bore of the desired depth, or in a horizontal direction to create a bore of the desired shape.
The process of extended bore machining is, for obvious reasons, highly versatile and efficient. It is particularly suited to the machining of thin materials, such as sheets and plates, and can be used to create complex shapes in a short period of time. It is also ideal for producing complex parts which require a high degree of accuracy.
One of the most common applications of extended bore systems is in the production of aerospace components, such as jet engines and space station components. Here, the process is used to create highly accurate parts with tight tolerances. The process is also used in the manufacture of precision medical instruments, as well as various machine tools and components.
In conclusion, extended bore systems have become an important part of modern machining and manufacturing technology. The process is highly versatile and efficient, allowing for the creation of complex parts with high degrees of accuracy. As such, the process is used in a wide range of sectors and industries, from aerospace and medical instrumentation to machine tools and components.
