Precision Machining – An Efficient Machining Systems Approach

Precision Machining - An Efficient Machining Systems Approach

Technological advancements are the keys to an accurate, automated future. In a world where machines are slowly aiding man in operations, a faster and more exact process is needed to cut lead, tack, and cycle times. A significant solution would be the employment of precision machining services. These services employ the latest technologies to increase productivity in terms of time, labor hours, labor wages, and the like. Lowering these time aspects in production lines are actually worth thousands of dollars in outputs. One precision machining service is the CNC machining procedure.

According to the University of Florida MAE Design and Manufacturing Laboratory class, CNC Machining, or Computer Numerical Controlled Machining, a precision machining service, pertains to processes that use computers to control the motion of one or more axes on the machine. This numerically controlled process was initially used during the 50’s when the US Army was in need of producing more advanced aircraft.

As time passed by, the equipment used became more computer based, resulting in the emergence of the CNC machining process. Developers and Software engineers began creating softwares that are capable of controlling certain machine aspects such as spindle speed, axis motion, and the like.

Since these precision machining services allow operators to tend to multiple machine axes at once, contouring operations that run in two or three dimensions have been made possible. This advancement allowed the users to be more flexible when it comes to the capability of their plants, production lines, assembly lines, and the like.

In relation to the maximization of operating times, these precision machining services permitted the operators to cater to a number of products at once. This reality results to the minimization of losses and expenses without compromising the quality of the production. It also reflects a more profitable, productive, and reliable operations, which is beneficial especially for companies that are still in the crucial infancy stage of their operations.

With regard to its control and operation, the CNC Machining System may be managed through the use of two kinds of programming languages, the Conversational and the CAM or Computer Aided Manufacturing Programming languages. The former is the simpler system of the two that uses a generalist language which tells the system to operate under certain, pre-programmed cycles. The latter is a more complex process, but this allows the user to come up with a more customized results through feeding the serviced part into a CAM system, and determining the parameters for its machined parts.