Parish Engineering has a number of machining centres to produce precision components from the simplest to the most complex. And by keeping up with the latest technology, Parish stays in front to offer speed, accuracy and extremely competitive pricing.
Our capabilities include
Vertical machining centres including 4th Axis machining
Machining range includes 1,000mm x 500mm table by 600mm high and 4th axis machining
High precision to within 0.001mm
Capable to machine Mild Steels, Stainless Steels (including Duplex and Stellite), Brass, Bonze, Copper, Aluminium, Plastics, Tool Steels, High Speed Steels, Titanium and other exotic materials
FAQs
CNC milling is a machining process where a rotating cutting tool removes material from a workpiece to create complex shapes and features. Parish Engineering uses CNC milling to manufacture precision components, from simple parts to intricate geometries, for industries such as aerospace, automotive, and defence.
CNC milling offers superior precision, repeatability, and efficiency compared to traditional milling. It allows for automated, multi-axis machining of complex shapes and designs, reducing the need for manual labor and improving production times and consistency.
CNC milling is highly accurate, with precision typically within ±0.01mm (10 microns), depending on the complexity of the part and the materials used. This makes it ideal for producing parts with tight tolerances.
CNC milling can accommodate a wide variety of materials, including metals such as aluminium, stainless steel, titanium, brass, and copper, as well as plastics and composites.
CNC milling is used across many industries, including aerospace, automotive, medical, defence, and manufacturing, where high-precision components and complex shapes are required.
CNC milling can produce a wide range of parts, from simple blocks and plates to highly complex components such as housings, brackets, gears, and turbine blades.
The key difference is that CNC turning is used to produce cylindrical or round parts, while CNC milling is used to create complex shapes with flat, angled, or curved surfaces. Turning involves rotating the workpiece, while milling uses a rotating cutting tool to remove material from a stationary workpiece.
