In the domain of manufacturing and the process-based industries, precision machining, High precision machining as well as ultra precision is the common words, and in the majority instances, these words are used to refer to the same meaning, though, there are prominent differences in between these aspects. So what is high precision machining? How is it different from other types of machining activities? Let’s explore the key points that can be accounted for in this regard.

Key Features of High Precision Machining

Coming to the domain of manufacturing, High precision machining, usually, refers to the machine parts that feature tolerance in the range of one-digit micron range. This is contrary to the aspect of ultra-precision machining, wherein,  the extent of tolerance will be in the range of sub-microns.  Machine parts, when features excessively tight tolerance emerge as a stringent challenge, though the extent of tolerance is not the only factor that determines the complexity and intricacies in any job work. This is also determined by the choice of the material as well as the count of the features on the concerned part.

Today, High precision machining, like the Swiss precision machining, is widely adopted by industries of all types. For example, this concept is applied in domains like Aerospace engineering, fluid motion, sports, Medicine, as well as technology. The fact is, with the passage of time, understanding the potential in this process, nearly all the manufacturing and process-based industries are adopting this technique to a higher extent. For instance, in today’s time, one can find enhanced use of this concept in the domain of Medicine, as medicine parts usually come with much smaller sizes, yet more complex appearances in today’s time.

Key Factors that can be deemed beyond the massive popularity of High Precision Machining

There should be some significant reasons that can be accounted for beyond the massive popularity of swiss machined parts, or the high precision machining. Here come the principal points in that view:

• High precision machining is a completely automated process, and hence, compared with manual machining process, you can ensure that the accuracy will be at the optimum extent, and therefore, there will be a zero margin of errors.
• One of the biggest advantages of precision engineering is that it brings down the extent of waste of materials to the minimum extent.
• As it involves CNC machining, it is for sure that the quality of the products will be consistent, and it paves the way for improved workflow.