Precision machining is a type of technical manufacturing that is essential in creating and designing machines, parts, tools, and other hardware that are essential in modern manufacturing to maintain process controls and tolerances that function under extremely tight specifications. It is used to make up the many large and small objects and their components that we use in everyday life. If an object is made up of many small parts, these will often need to be made with precision machining to ensure they fit together precisely and function properly. Precision Machining can be defined as utilizing the highest function of a tool, program, engineering talent or equipment thus pushing the limits of design feature creation and materials science and performing these operations under the tightest tolerances defined by any sub-set of these manufacturing parameters. Obviously, precision machining has evolved over time, and advancements in all related technologies help push the limits that define precision machining and improve performance consistently. The real art in precision machining comes with the machine of computer controlled design and human engineered design for the creation of unique features and highly controlled output and functionality driven by advancements in fluid dynamics, chemical control, mechanical, climate extremes and durability required in modern hardware technologies. Precision machining is particularly important to create tools and parts in a way that is precise, stable, and can be repeated with consistency, accuracy, and durability.
Precision machining is a subtractive process used in cases where material needs to be removed from a raw product to create the finished product. Precision machining can be used to create a wide variety of products, items, and parts for any number of different objects and materials. These parts usually require tight tolerances variation from nominal dimensions and from part to part, which means that there is not much room for error in the production of the piece. Repeatability and well-controlled tolerances are hallmarks of precision machining.
Components, parts and finished durable products that are designed to maintain extremely tight tolerance margins and a high degree of durability are essential and common drivers for utilization of precision machining