The goal of precision engineering

The goal of precision engineering revolves around the creation of highly precise machine movement, eliminate fitting, thereby promoting machine assembly, improving the machine accuracy and making machine function independent of one another. This is but few of the goals of precision engineering

CNC controler

Suppose you want to learn about the different machine system where precision engineering was applied. It’s better to check out OCD engineering’s courses.

OCD Engineering Ltd is an engineering company based in West Sussex UK. OCD Engineering offer services like CAD Designing, 3D printing – prototyping, CNC machining – prototyping, CNC and manufacturing educational programs.

OCD Engineering offer courses on Health and Safety in engineering workshops, Computer numerical control machines, showing the principles of measuring precision and work holding, Computer-aided designing, etc.

The course ranges from evening course to, short evening courses, full-time year training, three months intensive training, weekend courses, and evening courses.

Leaning about precision engineering in our today’s world can greatly increase your employability.

Precision engineering is a form of engineering

Precision engineering is a form of engineering that make use of ideas from electrical engineering, mechanical engineering, optical engineering, software engineering, and electronic engineering, to analyze and design machines that have a lot of stability and very low tolerance.

CNC machine tools

Precision engineering works on the fundamental law that system behavior can be predicted no matter the kind of motions involved. To fully understand this, you should know all machines obey Newton’s third law of cause and effect. Anything that happens in a machine is as a result of the effect of something.

This removes probability from machine control. This means everything happening in a machine happens for reasons that can be determined, and these causes can be controlled. Precision engineering makes use of this basis in developing machines with precise movement and improved machine accuracy.

The approaches of precision engineering have been applied in fields like Optoelectronics designs, Machine tools, Nanoelectromechanical systems (NEMS), Microelectromechanical systems (MEM).