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SERVICE DESCRIPTION | Making objects/components in the form of flat planes using programming CNC Lathe Machine is to produce components with high precision through automation of cutting processes on rotating workpieces Serial Number : FM22370-33A-01 Type/Brand : CNC Lathe…
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- KKE Subang (Muhammadi Siswosudarmo)
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Making objects/components in the form of flat planes using programming
CNC Lathe Machine is to produce components with high precision through automation of cutting processes on rotating workpieces
Serial Number : FM22370-33A-01
Type/Brand : CNC Lathe Machine Including Yamazaki Mazak Software
CNC MILLING MACHINE Technique
Face Milling : Cutting the flat surface of the workpiece with a cutter that rotates perpendicularly, producing a flat and smooth surface.
Peripheral Milling (End Milling) : Scraping material from the side of the workpiece with a horizontally moving end mill cutter, ideal for producing certain profiles or contours.
Contour Milling : Used to cut complex shapes or contours on the surface of the workpiece, usually using a ball-nose cutter to follow the design curves.
Pocketing : Carving holes or cavities (pockets) in the workpiece, carried out with movements that are precisely designed by the CNC program.
Drilling and Tapping : CNC machines can also perform drilling and tapping operations automatically for holes that require threads.
Adaptive Feed Milling : Advanced technique that automatically adjusts feed rate and spindle speed to optimize cutting, reduce vibration, and extend tool life.
CNC LATHE MACHINERY TECHNIQUES
Turning (Circular Cutting): Reducing the diameter of a workpiece by cutting evenly across the cylindrical surface.
Facing (End Surface Smoothing): Producing a flat surface on the end of a workpiece by removing material transversely.
Boring (Hole Making and Smoothing): Duplicating or smoothing an existing hole in a workpiece, producing precise internal dimensions.
Threading (Thread Making): Creating external or internal threads on a workpiece through programmed motion, producing consistent threads.
Parting-off (Part Cutting): Separating components or cutting off specific parts from a workpiece after the turning process is complete.
Grooving (Groove Making): Forming grooves or indentations on the surface of a workpiece according to the desired design.
Taper Turning: Creating parts with gradual diameter changes (tapered) by adjusting the movement of the tool.
Material Type
Carbon Steel and Alloy Steel:
Stainless Steel:
Aluminum and Alloys:
Brass and Copper:
Non-Metallic Materials:
Sample/Workpiece Requirements
Workpiece Size
Diameter: A CNC lathe for small industries is usually capable of machining components with diameters ranging from around 5-10 mm to 200-300 mm. Large industrial machines can handle workpieces with larger diameters, depending on the machine specifications.
Length: The length of the workpiece that can be machined ranges from a few hundred millimeters to several meters, for example 500 mm to 2000 mm, according to the chuck capacity and the working area of the machine.
Size Suitability: The workpiece must have a fairly flat and symmetrical surface in order to be processed accurately.
The size selection is also adjusted to the final application, for example for precision components in the automotive or aerospace industries.
CNC Lathe Machine is to produce components with high precision through automation of cutting processes on rotating workpieces
Serial Number : FM22370-33A-01
Type/Brand : CNC Lathe Machine Including Yamazaki Mazak Software
CNC MILLING MACHINE Technique
Face Milling : Cutting the flat surface of the workpiece with a cutter that rotates perpendicularly, producing a flat and smooth surface.
Peripheral Milling (End Milling) : Scraping material from the side of the workpiece with a horizontally moving end mill cutter, ideal for producing certain profiles or contours.
Contour Milling : Used to cut complex shapes or contours on the surface of the workpiece, usually using a ball-nose cutter to follow the design curves.
Pocketing : Carving holes or cavities (pockets) in the workpiece, carried out with movements that are precisely designed by the CNC program.
Drilling and Tapping : CNC machines can also perform drilling and tapping operations automatically for holes that require threads.
Adaptive Feed Milling : Advanced technique that automatically adjusts feed rate and spindle speed to optimize cutting, reduce vibration, and extend tool life.
CNC LATHE MACHINERY TECHNIQUES
Turning (Circular Cutting): Reducing the diameter of a workpiece by cutting evenly across the cylindrical surface.
Facing (End Surface Smoothing): Producing a flat surface on the end of a workpiece by removing material transversely.
Boring (Hole Making and Smoothing): Duplicating or smoothing an existing hole in a workpiece, producing precise internal dimensions.
Threading (Thread Making): Creating external or internal threads on a workpiece through programmed motion, producing consistent threads.
Parting-off (Part Cutting): Separating components or cutting off specific parts from a workpiece after the turning process is complete.
Grooving (Groove Making): Forming grooves or indentations on the surface of a workpiece according to the desired design.
Taper Turning: Creating parts with gradual diameter changes (tapered) by adjusting the movement of the tool.
Material Type
Carbon Steel and Alloy Steel:
Stainless Steel:
Aluminum and Alloys:
Brass and Copper:
Non-Metallic Materials:
Sample/Workpiece Requirements
Workpiece Size
Diameter: A CNC lathe for small industries is usually capable of machining components with diameters ranging from around 5-10 mm to 200-300 mm. Large industrial machines can handle workpieces with larger diameters, depending on the machine specifications.
Length: The length of the workpiece that can be machined ranges from a few hundred millimeters to several meters, for example 500 mm to 2000 mm, according to the chuck capacity and the working area of the machine.
Size Suitability: The workpiece must have a fairly flat and symmetrical surface in order to be processed accurately.
The size selection is also adjusted to the final application, for example for precision components in the automotive or aerospace industries.
