Material is removed from a workpiece during the machining process to achieve the desired end results. Precision machining utilizes advanced, computerized machine tools to achieve the demanding tolerances and create the more complex geometric cuts required for so many of today’s components.

This high degree of accuracy and repeatability is achieved through the use of computer numerical control (CNC) machine tools, which provide the ability to convert a unique design into exact shapes through multiple dimensions.

Precision machining can also be a useful option for prototyping purposes. Creating a rapid prototype is a valuable tool that can help design engineers quickly gather feedback on the viability of a potential part, by creating a physical representation based on their initial drawings and specifications. Corrections and revisions can then be made before the final production process begins. This article looks at the rapid prototype for precision machining.

What is the Rapid Prototype for Precision Machining Process?

The CNC precision machining process is highly automated, which eliminates the “human error” factor that may be encountered in other forms of rapid prototyping. A product designer or engineer who wants to make prototypes for further analysis can quickly and easily create a 3D CAD model of the design. This information can then be relayed directly to the precision machining equipment, which will manufacture the prototype precisely to the specifications.

What are the Benefits of Rapid Prototyping for Precision Machining?

Rapid prototyping for precision machining is cost-effective, and produces a number of benefits:

• Reduced product development and lead time. Precision machining is a fast way to convert CAD files into finished workpieces and allows for easy modification to prototype designs.
• Smooth, high-quality surface finish.
• Tolerances with modern precision machining tools are incredibly precise and accurate.
• Applicable for creating prototypes with solid structural integrity and good mechanical properties.
• Once finalized, the design used for the prototype can be directly implemented for full production runs.
• Highly adaptable technology for product development situations where design alterations are needed, or for projects under a tight development time window.

The most important benefit of rapid prototyping for precision machining, though, is that it allows design engineers to thoroughly test a potential product early in the design process. Multiple prototypes can be created for comparison purposes, design flaws can be analyzed and corrected, and more refined prototype options can be produced in a shorter period.

Learn More About Rapid Prototypes for Precision Machining

Leveraging advanced equipment, state-of-the-art techniques, and an ability to offer one-stop solutions, Impro is reputed for flexible manufacture, rapid product development and reliable quality. Impro can turn around precision machining prototypes within a week to 10 days. If you are interested in finding more information about our rapid prototype capabilities for precision machining parts, please contact our team of experts today.