In the Computer Numerical Control (CNC) machining process, production equipment and tools are moved according to pre-programmed computer software. The procedure can be used to operate a variety of complicated machinery, including mills, CNC routers, lathes, and grinders.
Simply said, the distinction between CNC turning and milling is whether the machine itself or the raw material moves. While the cutting tools move around the material, it is maintained in place throughout CNC milling procedures allowing for greater precision and efficiency. Contrarily, CNC turning necessitates that the tools remain in position as the material is rapidly rotated to produce the shape.
CNC milling is a subtractive manufacturing process that involves using computer-controlled machines to remove material from a block of plastic, metal or wood until the desired shape and dimensions are achieved.
CNC milling is performed using various axes, the more traditional of these is the 3-axis, which enables the cutting tool to move in three directions – known as X, Y and Z.
Additionally, four or more axes of machining, including worktable and tool rotation, are available with CNC milling. These add another level of flexibility. The most popular of these machines have five axes and can produce almost everything that can be made using CNC machining.
A CNC turning center's primary job is to rotate (or "turn") the workpiece while the machine's tools move in to remove extra material and mould it into the required shape. Initially, a device known as the "chuck" holds the material in position while it spins at various speeds in accordance with the machine's parameters.
Contrary to popular belief, CNC turning is a development from one of the earliest and most basic methods of part creation—the use of the lathe. Depending on the weight and tolerance of the workpiece, the machines are either horizontal or vertical, and the raw materials used are often rounded.
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