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Why Precision Engineering is Important

Posted on 22nd August 2018 by usdadmin

Over recent years, the importance of the manufacturing and precision industries has grown significantly. The highly specialised fields include electronic, electrical and software disciplines which are playing a vital role in current and future technologies. While precision engineering does not cut across as an everyday term, it is highly recognised as the force behind modern gadgets which are highly popular in the market today.

Why Precision Engineering is Important

Precision engineering is an important part of the manufacturing, measuring, designing and developing parts of a bigger and more complicated system. Precision engineering can be applied in different fields like pharmacy, formula 1, and aerospace. Some of the processes and techniques used in this type of engineering include tunnelling microscopy, scanning and dynamic modelling. A lot of research has been focused on the processes which include the design, development, measuring and manufacturing with the aim of making precision engineering more impactful.

With the four processes, precision engineering is able to focus on producing highly accurate components and materials that can be used in precision replication, processing of materials, optical fabrication, semiconductor processes and more. The precision engineer who is tasked with operating the machinery has to use the materials at hand to develop a systematic approach which can help to avoid errors with regards to dimensions.

With the increasing demand for businesses to remain competitive, innovative methods of improving the manufacturing processes are high on the list of priorities. On one hand, manual labour becomes expensive with increased risk or human error during the manufacturing process which can easily damage the reputation of the company and consequently the profitability of the company. With precision engineering, it is possible to get rid of errors using Computer Numerically Controlled (CNC) machines. The time taken to complete projects is also shorter and more cost-effective even when assembling larger machines. With precision engineering, it is possible to complete projects of any size with ease because the accuracy can be measured at each stage to guarantee the right components of the right size and proper fit are produced even at different machining stations.

Before investing in a CNC machine, there are a few aspects of manufacturing that need to be taken into consideration. These include;

  • The cost of maintenance
  • The capacity of the machine
  • The size and type of the components to be handled
  • The cost of cleaning up
  • The productivity of the machine
  • The specifications of the design of the machine and components to be handled.

It is not necessary for a business to invest in a CNC machine especially when their production line does not have the capacity to make proper use of the machine. For smaller businesses that are not able to afford buying and running a CNC machine, they can easily outsource their operations to machining centres. In the UK, the demand for precision engineering and engineers is rapidly growing as companies and businesses looking to expand, start projects that will impact their future and outsourcing their operations to machining centres is proving to be cost effective and time efficient to their goals for growth and competitiveness.

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