The Basics of CNC Prototype Machining

Most of us know what a prototype is, but do you have any idea how it’s made? Keep reading to see how technological advances have made this process easier.

What is CNC Machining?
CNC machining is essentially a type of automated milling that makes industrial components via computer, as opposed to with human assistance. Also known as computer numerical control, CNC machines run via coded instructions sent to an internal computer, which then fabricates parts quickly and accurately. There are many different types of CNC machines, which utilize many different metals to create parts. The most common use for these machines is in industrial manufacturing, but they are sometimes utilized in other fields as well.

Functional Prototyping
When your product development has reached the point where you’re ready for a prototype, you’ll need one that can stand the rigors of testing. cnc prototype machining is perfect for this application, as it can be used to produce highly functional prototypes. The prototypes created through this process come with many benefits, including wall thickness, high tolerances, and rounded radii. This functional prototype will prove indispensable for your business, as it will allow you to thoroughly inspect and test your product before you begin mass-producing it.

This new method of prototype machining comes with some obvious benefits. More than anything, CNC machining makes the process more efficient overall, utilizing completely digital designs, which eliminates the need for hand drawn blueprints. Eliminating these hand drawn blueprints also means that money can be saved on employee hours.

Since these machines run without human intervention, this is also another area in which money can be saved, as the total amount of staff needed to run the operation can be cut down. This also leaves employees free to do more important tasks, allowing the business to run more smoothly. Perhaps most important, however, is how this method can prevent human errors. This level of precision eliminates waste and mistakes, ultimately saving money and time.

Even though there is an initial investment required to obtain the equipment, with the amount of time the process saves, it can actually save money over the long-term.