1. Process Characteristics

2. Process Schematic

3. Setup and Equipment

4. Workpiece Materials

5. Tooling Materials

6. Tolerances and Surface Finish

7. Tool Styles and Possibilities

8. Effects on Work Material Properties

9. Process Conditions

10. Lubrication and Cooling

11. Notes

12. References

13. See also

Arbor milling is a cutting process which removes material via a multi-toothed cutter. An arbor mill is a type of milling machine characterized by its ability to rapidly remove material from a variety of materials. This milling process is not only rapid but also versatile.

Process Characteristics

• Cuts surfaces parallel to rotational axis of the tool unlike Drilling(Perpendicular to Axis)
• Multipoint cutter creates discontinuous chips
• Capable of producing flat, shaped, or contoured surfaces on workpiece
• Cutters supported on an arbor (mandrel)
• High metal removal rate
• Sweeps chipped material away as it works

Process Schematic

This process progressively makes a surface to the user's specifications as the material is moved against the milling tool or the workpiece stays stationary while the arbor milling cutter moves across it to provide the desired shape. There are two types of milling that involve the directional movement of the workpiece, conventional and climb. If the workpiece is moving the opposite direction of the tool rotation this is called conventional milling. If the workpiece is moving the same direction as the tool rotation, this is called climb milling.^[1]

Setup and Equipment

Arbor milling is commonly performed on a horizontal milling machine. The tool is mounted on an arbor/mandrel (like an axle) that is suspended between the spindle and arbor support. This type of machine allows the tool to be placed in numerous positions in relation to the workpiece.

Workpiece Materials

The workpiece involved in arbor milling can be a flat material or a shaped material: either one can be worked with desirable results. The hardness of the materials milled should be no harder than Rockwell C25(Rockwell scale), but workpieces harder than this can be successfully milled. Materials with good or excellent machinability include aluminum, brass, mild steel, cast iron, and thermoset plastics. Though initially ductile, stainless steel tends to work harden and thus has only a fair compatibility with this milling process (though it is in the feasible range).

Tooling Materials

Although high speed tool steel has been used in the past it is quickly being replaced by carbide, ceramic, or diamond tooling. Because carbide inserts are long lasting and easily replaced, they lend themselves to high production. Ceramic tools are brittle but can withstand high temperatures. This makes high speed machining possible. Diamond tools are used to achieve a superior surface finish (though they can only be used on non-ferrous materials).

Tolerances and Surface Finish

In most applications, tolerances can be held within +-0.005 in. For precision application, tolerances can be held within +-0.001 in. It is possible to have a surface finish range of 32 to 500 microinches, but typically the range is 63 to 200 microinches. Finish cuts will generate surfaces near 32 to 63 micro inches, roughing cuts near 200 microinches.

Tool Styles and Possibilities

The most common tool styles used in arbor milling are: double angle, form relived, plane, and staggered tooth Among many other tool styles. The double angle milling cutter can make a wide variety of V shaped cuts with straight surfaces in the material. A form relieved milling cutter can produce U shaped cuts with curved surfaces, unlike the double angle cutter, into the material. A plane milling cutter can produce surfaces similar to a planer but can make varying contours across the material. A staggered tooth milling cutter can produce a rectangular groove in the material at varying depths and widths. The cutters can be stacked to mill combined profiles. The typical width of cuts made by arbor milling range from .25 in. to 6 in, and the typical depths range from .02 in. to .05 in.

Effects on Work Material Properties

Mechanical properties of the workpiece may be affected with a built-up edge or dull tool. Arbor Milling can create an untempered martensitic layer on the surface of heat-treated alloy steels, about 0.001 in. thick. Other materials are affected very little by arbor milling.

Process Conditions

Shown are the suggested ranges for cutting speeds and feed rates using high speed tool steel under dry cutting conditions at a 0.015 in. depth of cut. Generally cutting speeds are lower for hard materials, higher for soft materials. Both cutting speeds and feed rates can be substantially increased when coolants are used and carbide tooling is substituted for steel tooling.

Lubrication and Cooling

Due to high cutting speeds a cutting fluid is required to lubricate and cool the tool and workpiece. The fluids can increase tool life, cutting speeds, and the quality of the finished surface. There are three common cutting fluids: mineral, synthetic, and water-soluble oils. These fluids can be applied by spraying, misting, or flooding the workpiece.

Notes

References

• Todd, Robert H., Dell K. Allen, and Leo Alting. Manufacturing Processes Reference Guide. New York: Industrial Press Inc.1994.{{ISBN|0-8311-3049-0}}
• Information borrowed liberally from [https://web.archive.org/web/20090311010313/http://new.industrialpress.com/node/638 "Manufacturing Processes Reference Guide"], Industrial Press Inc. 1994 with the permission of Dr. Dell K. Allen
• http://class.et.byu.edu/mfg130/processes/descriptions/mechanicalreduction/arbormilling.htm

See also

• Metalworking
• Milling cutter
• Machining
• Horizontal boring machine
• CNC pocket milling

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