Milling Machine Operations - VintageMachinery.org …vintagemachinery.org/pubs/2099/4761.pdfMilling...

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Milling Machine Operations 03/05/2004

Transcript of Milling Machine Operations - VintageMachinery.org …vintagemachinery.org/pubs/2099/4761.pdfMilling...

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Milling Machine Operations

03/05/2004

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TABLE OF CONTENTS

Lesson 1 Objectives........................................................................................................ .....3Vertical Mill 4Milling Machine Accessories....................................................... ............................23Common Milling Cutters...................................................................... ...................24Metal Saws 24End Mills 25T-Slot Cutter 25Dovetail Cutter................................................................................................ .......25Woodruff Keyseat Cutter........................................................... .............................25Flycutters 26Cutting Speeds and Feeds....................................................................... ...............26Calculating Speeds and Feeds............................................................... .................26Milling Machine Safety........................................................................................... .30

Lesson 2 Objectives.................................................................................................... .......32Milling Machine Set-Up........................................................................... ................33Alignment Techniques................................................................... .........................33Common Milling Machine Operations.................................................................. ....34Mill Operations...................................................................................... .................34Alignment of the Head.............................................................. .............................34Machining a Flat Surface.................................................................. ......................35Squaring Work on a Milling Machine................................................ .......................35Machining the Ends Square............................................................... .....................38Machining an Angular Surface................................................................ ................38Cutting Slots and Keyways............................................................ .........................39Woodfuff Keys 40

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COURSE TERMINAL OBJECTIVE

Given a job assignment requiring the use of a milling machine, the Maintenance Mechanic will describe the components of the milling machine and the various operations that can be performed. Mastery will be demonstrated by the completion of a comprehensive written examination with a minimum score of 80% complete.

LESSON ONE TERMINAL OBJECTIVE

Given a job assignment requiring the use of a milling machine, the Maintenance Mechanic will describe the components and accessories of a milling machine.

LESSON ONE ENABLING OBJECTIVES

EO1- Describe the components of a vertical milling machine

EO2- Identify and state the purpose of the common milling machine accessories.

EO3- Identify and state the purpose of the common milling cutters.

EO4- State the methods for determining the proper cutting speeds, feeds, and depth of cut for various materials and cutters.

EO5- State the safety precautions when working on a milling machine.

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The standard vertical milling

machine has the cutter spindle mounted in a vertical position. The head on most vertical milling machines may be swiveled, which readily permits the machining of angular surfaces. The cutters used are of the end mill or shell end mill types. This type of machine is particularly suited to the use of the rotary table, permitting the machining of circular grooves and positioning of holes that have been laid out with angular measurements.

PARTS OF THE RAM-TYPE VERTICAL MILL

The base is made of ribbed cast iron. It may contain a coolant reservoir.

The column is often cast integrally with the base. The machined face of the column provides the ways for vertical movement of the knee. The upper part of the column is machined to receive a turret on which the overarm is mounted.

The overarm is round, or of the ram type. It may be adjusted toward or away from the column to increase the capacity of the machine.

The head is attached to the end of the ram. Provision is made to swivel the head in one plane. On universal-type machines, the head may be swiveled in two planes. Mounted on top of the head is the motor which provides the drive to the spindle. The spindle may be fed by means of a hand lever, a handwheel, or automatic power feed. Most machines are equipped with a micrometer quill stop for precision drilling or boring to depth.

The knee moves up and down on the face of the column and supports the saddle and the table. Vertical milling machines are normally equipped with plain tables only.

EO01- DESCRIBE THE COMPONENTS OF A VERTICAL MILLING MACHINE

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The turret pivots the entire upper assembly for special setups or to use the slotting attachment (accessory).

The following pages describe, in detail, the head controls for the Bridgeport Mills.

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MILLING MACHINE ACCESSORIES

A wide variety of accessories, which greatly increase its versatility and productivity, are available for the milling machine. These accessories may be classified as fixtures or attachments.

Fixtures. A fixture is a work holding device fastened to the table of a machine or to a machine accessory, such as a rotary table. It is designed to hold workpieces that cannot readily be held in a vise or in production work when large quantities are to be machined. The fixture is generally custom designed so that the identical parts will be positioned exactly and held securely.

Attachments. Milling machine attachments may be divided into three classes:1. Those designed to hold special attachments; these are attached to the spindle and

column of the machine.2. Arbors, collets and adapters which are designed to hold standard cutters. These are

mounted in the spindle.3. Those designed to hold the workpiece, such as a vise, rotary table, and indexing or

dividing head.

Milling machine vises are the most widely used work-holding devices for milling; they are available in three styles:

The plain vise may be bolted to the table so that its jaws are parallel or at right angles to the “X” axis. The vise is positioned quickly and accurately by keys on the bottom which fit into T-slots on the table.

EO2- IDENTIFY AND STATE THE PURPOSE OF THE COMMON MILLING MACHINE ACCESSORIES.

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The swivel base vise is similar to the plain vise, except that it has a swivel base that enables the vise to be swiveled through 360O in a horizontal plane.

The universal vise may be swiveled through 360O in a horizontal plane and may be tilted from 0 to 90O in a vertical plane. It is used primarily by toolmakers, moldmakers, and

diemakers, since it permits the setting of compound angles for milling.

Vises are a piece of precision equipment. Don't abuse them. They are not anvils or to be used for bending metal.

METAL SAWSMetal-slitting saws are basically thin plain milling cutters with sides relieved or "dished" to

prevent rubbing or binding. Slitting saws are made in width from 1/32 - 3/16 in. Because of their thin cross section, they should be operated at approximately one-quarter to one-eighth of the feed per tooth used for other cutters. The arbor nut should be pulled up as tightly as possible by hand only. Do not use any cheaters, use the wrench only.

EO3- IDENTIFY AND STATE THE PURPOSE OF THE COMMON MILLING CUTTERS

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END MILLS

End mills have cutting teeth on the end as well as on the periphery and are fitted to the spindle by a suitable adapter. They are of two types, the solid end mill in which the shank and cutter are one piece, and the shell end mill, which uses a separate shank.

Solid end mills, generally smaller than shell end mills, may have either straight or helical flutes. They are available with straight and tapered shanks and with two or more flutes. When a slot is cut with a two-flute end mill, the depth of cut should not exceed one-half the diameter of the cutter. When the four-flute end mill is used for slot cutting, it is started at the edge of the metal.

T-SLOT CUTTERThe T-slot cutter (Fig. 17-A) is

used to cut the wide horizontal groove at the bottom of a T-slot after the narrow vertical groove has been machined with an end mill. It consists of a small side milling cutter with teeth on both sides and a shank for mounting.

DOVETAIL CUTTER

The dovetail cutter (Fig. 17-B) is similar to a single-angle milling cutter with an integral shank. Dovetail cutters are available with an internal thread to be mounted on a special shank. They are used to form the sides of a dovetail after the tongue or groove has been machined with a side milling cutter. Dovetail cutters are available with 45, 50, 55,

or 60O angles.

WOODRUFF KEYSEAT CUTTER

The Woodruff keyseat cutter is similar to a plain and side milling cutter. Smaller sizes are made with a solid shank and straight teeth; larger sizes are mounted on an arbor and have staggered teeth. They are used for milling semi-cylindrical keyseat in shafts.

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FLYCUTTERS

The flycutter is a single-pointed cutting tool with the cutting end ground to the desired shape. It is mounted in a special adapter or arbor. Since all the cutting is done with one tool, a fine feed must be used. They are used in experimental work where the high cost of a special cutter would not be warranted.

CALCULATING CUTTING SPEEDS AND MILLING FEEDS Speed. One of the most important factors affecting the efficiency of a milling operation is cutter speed. The cutting speed of a metal may be defined as the speed, in surface feet per minute (sfm) at which the metal may be machined efficiently. We will refer to surface feet per minute as cutting speed. When work is machined on a lathe, it must be turned at a specific number of revolutions per minute (rpm), depending on its diameter, to achieve the proper cutting speed. When work is machined in a milling machine, the cutter must be revolved at a specified rpm, depending on its diameter, to achieve the proper cutting speed.

Since different types of metals vary in hardness, structure, and machinability, different cutting speeds must be used for each type of metal and for various cutter materials. Several factors must be considered when determining the proper rpm at which to machine a metal:

The type of work material The cutter material The diameter of the cutter The surface finish required The depth of cut being taken The rigidity of the machine and work setup

EO4- STATE THE METHODS FOR DETERMINING THE PROPER CUTTING SPEEDS, FEEDS, AND DEPTH OF CUT FOR VARIOUS MATERIALS AND CUTTERS

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To get optimum use for a cutter, the proper speed at which the cutter should be revolved must be determined. When machining mild steel, a high speed cutter would have to achieve a surface speed of about 90 ft/min. Since the diameter of the cutter affects this speed, it is necessary to consider the diameter in the calculation. The following example illustrates how the formula is developed.

EXAMPLE

Calculate the speed required to revolve a 3-inch diameter high-speed steel milling cutter when cutting machine steel.

1. First, determine the circumference of the cutter. Circumference of Cutter = 3 inches x 3.1416

2. To determine the proper cutter speed or RPM, it is necessary only to divide the cutting speed (CS) by the circumference of the cutter:

CS (ft) RPM = circumference (in.)

= 90 3 x 3.1416

Since the numerator is in feet and the denominator in inches, the numerator must be changed to inches and the formula simplified:

4 x CS RPM = D

Although these formulas are helpful in calculating the cutter (spindle) speed, it should be remembered that they are approximate only, and the speed may have to be altered because of the metal and/or the machine condition. Best results may be obtained if the following rules are observed:

For longer cutter life, use the lower CS in the recommended range.

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Know the hardness of the material to be machined.

When starting a new job, use the lower range of the CS and gradually increase to the higher range if conditions permit.

If a fine finish is required, reduce the feed rather than increase the cutter speed.

The use of coolant, properly applied will generally produce a better finish and lengthen the life of the cutter because it absorbs heat, acts as a lubricant, and washes chips away.

Feed. Milling machine feed may be defined as the distance in inches per minute that the work moves into the cutter. On most milling machines, the feed is regulated in inches per minute (IPM) and is independent of the spindle speed. This arrangement permits faster feeds for larger, slowly rotating cutters. The milling feed is determined by multiplying the chip size (chip per tooth) desired, the number of teeth in the cutter and the rpm of the cutter. Chip per tooth (CPT) is the amount of material which should be removed by each tooth of the cutter as it revolves and advances into the workpiece.

The feed rate used on a milling machine depends on a variety of factors:

The depth and width of cut The design or type of cutter The sharpness of the cutter The workpiece material The strength and uniformity of the workpiece The type of finish and accuracy required The power and rigidity of the machine

As the work advances into the cutter, each successive tooth advances into the work an equal amount, producing chips of equal thickness. It is this thickness of the chips or the feed per tooth, along with the number of teeth in the cutter, which form the basis for determining the rate of feed. The ideal feed rate may be determined as follows:

Feed = number of teeth x feed/tooth x cutter rpm

The formula used to find the work feed in inches per minute is:

IPM = N x CPT x RPM

N = number of teeth in the cutter CPT = chips per tooth for a particular cutter and metal

RPM = revolutions per minute of the spindle

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EXAMPLE

Find the feed in inches per minute using a 3.5-inch diameter 12-tooth helical cutter to cut machine steel (CS 80). It would first be necessary to calculate the proper rpm for the cutter:

4 x CS 4 x 80RPM = D = 3.5 = 91

Feed (IPM) = N x CPT x RPM = 12 x 0.010 x 91 = 10.9 or 11

The calculated feeds would be possible only under ideal conditions, it is suggested that the milling machine feed be set to approximately one-third or one-half the amount calculated. The feed can then be gradually increased to the capacity of the machine and the finish desired.

Depth of cut. Where smooth accurate finish is desired, it is considered good milling practice to take a rough and finishing cut.

Roughing cuts should be deep, with a feed as heavy as the work and the machine will allow. Heavier cuts may be taken with helical cutters having fewer teeth since they are stronger and have a greater chip clearance than cutters with more teeth.

Finishing cuts should be light, with a finer feed than is used for roughing cuts. The depth of the cut should be at least 1/64 inch. Lighter cuts and extremely fine feeds are not advisable since the chip taken by each tooth will be thin and the cutter will rub on the surface of the work, rather than bite into it, dulling the cutter. When a fine finish is required, the feed should be reduced rather than speeding the cutter up. More cutters are dulled by high speeds than by high feeds.

To prevent damage to the finished surface, never stop the feed when the cutter is revolving over the workpiece. For the same reason, move the cutter before returning the work to the starting position upon completion of the cut.

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MILLING MACHINE SAFETY

The milling machine, like any other machine, demands the total attention of the operator and a thorough understanding of the hazards associated with its operation. The following points should be observed when operating the milling machine:

Be sure that the work and cutter are mounted securely before taking a cut.

Always wear safety glasses.

When mounting or removing milling cutters, always hold them with a cloth to avoid the sharp edges.

When setting up work, move the table as far as possible from the cutter to avoid any injury.

Be sure that the cutter and machine parts will clear the work before making any cut.

Never attempt to mount, measure, or adjust work until the cutter is completely stopped. Do not attempt to stop the cutter with your hand.

Keep hands, brushes, and rags away from a revolving milling cutter at all times.

When using milling cutters, do not use an excessively heavy cut or feed. This can cause the cutter to break and the resulting flying pieces may cause injury.

Always use a brush, never a rag, to remove the cuttings after the cutter has stopped revolving.

Never reach over or near or around a revolving cutter; keep hands at least 12 inches from the revolving cutter.

EO5- STATE THE SAFETY PRECAUTIONS WHEN WORKING ON A MILLING MACHINE

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Keep the floor around the machine free of chips, oil, and cutting fluid.

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LESSON TWO TERMINAL OBJECTIVE

Given a job assignment that requires the performance of milling machine operations, the Maintenance Mechanic will describe the proper set-up and performance of the various milling machine operations.

ENABLING OBJECTIVES

EO1- Describe the proper set-up of a milling machine for various milling machine operations.

EO2- Describe the more common milling operations performed on a vertical milling machine.

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ALIGNMENT TECHNIQUES

When a workpiece is mounted in a milling machine vise, the vise must be properly aligned. Generally, the stationary jaw of the vise must be either at right angles to the face of the machine column, or it must be parallel with the face of the column. Right angle squareness of the vise with the column can be checked by placing the blade of a precision steel square against the stationary jaw of the vise while placing the beam of the square against the machined surface of the column.

Another method to check alignment is to place parallel bars between the machine column and the angle plate. No light should show between the parallel and the column.

This is done for rough alignment. Final Alignment is to be done with dial indicator.

Parallelism of the stationary jaw can be checked with a dial indicator (within .001TIR). Clamp the indicator to the spindle with the plunger touching the stationary vise jaw. Correct any misalignment.

EO1- DESCRIBE THE PROPER SET-UP OF A MILLING MACHINE FOR VARIOUS MILLING OPERATIONS

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VERTICAL MILLING MACHINE OPERATIONS

The vertical milling machine offers a great deal of versatility. The vertical milling machine can be used for machining flat surfaces, angular surfaces, drilling, boring, and machining keyways and circular grooves.

ALIGNMENT OF THE VERTICAL HEADProper alignment of the head is important when machining holes, pockets or when face

milling. If the head is not at an angle of 90O to the table, the holes will not be square with the work surface when the cutting tool is fed. When face milling, the machined surface will be stepped if the head is not square with the table. Although all heads are graduated in degrees and some have vernier devices for setting the head, it is a good idea to check the spindle alignment.

1. Mount a dial indicator on the spindle at 90O, on a suitable rod.2. Position the indicator over the top of the table.3. Carefully lower the spindle until the indicator button touches the table and the dial indicator registers about a half of a revolution. Set the indicator to zero and lock the spindle in place.4. Carefully rotate the vertical mill spindle 180O

by hand until the button bears on the opposite side of the table. Compare the two readings. (Should be less than .001TIR)5. If there is any discrepancy in the readings, loosen the locking nuts on the swivel mounting and adjust the head until the indicator registers one-half the difference between the two readings. Tighten the locking nuts.6. Recheck the accuracy of the head and adjust if necessary.7. Rotate the vertical mill spindle 90O, and set the dial indicator again.8. Rotate the spindle 180O and compare the two readings. Adjust as necessary.9. Tighten the locking nuts on the swivel head.10. Recheck the readings and adjust as necessary.

EO2- DESCRIBE THE MORE COMMON MILLING MACHINE OPERATIONS ON A VERTICAL MILLING MACHINE

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NOTE: When readings are taken, it is important that the indicator button does not catch in the T-slots on the table. To prevent this, it is advisable to work from the high reading first and then rotate to the low reading. The longer the rod used on the dial indicator, the more accurate the setting will be.

MACHINING A FLAT SURFACE1. Clean the vise and mount the work securely in the vise, on parallels if necessary.

2. Check that the vertical head is square with the table.

3. If possible, select a cutter, which will just overlap the edges of the work. It will then require only one cut to machine the surface. If the surface to be machined is narrow, an end mill slightly larger in diameter that the width of the work should be used. If the surface is large and requires several passes, a shell end mill or suitable fly cutter should be used.

4. Set the proper spindle speed for the size and type of cutter and material being machined.

5. Tighten the quill clamps.

6. Start the machine, and adjust the table until the end of the work is under the edge of the cutter.

7. Raise the table until the work surface just touches the cutter. Move the work clear of the cutter.

8. Raise the table about 1/32 inch and take a trail cut for approximately 1/4 inch.

9. Move the work clear of the cutter, stop the cutter, and measure the work.

10. Raise the table the desired amount, and lock the knee clamp.

11. Mill the surface to size using the automatic feed (or hand feed if desired).

SQUARING WORK ON A MILLING MACHINE

In order to mill the four sides of a piece of work so that they are square and parallel, it is important that each side be milled in a definite order. It is very important that dirt and burrs be removed from the work and vise since they can cause inaccurate work.

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Machining Side 11. Clean the vise thoroughly and remove all burrs from the workpiece.

2. Set the work in the vise with the first surface (Side 1) facing up.

3. Insert a soft metal rod between the work and the movable jaw if that portion of the work is rough or not square.

4. Tighten the vise securely.

5. With a soft-faced hammer, tap the workpiece down in the vise until it sits securely.

6. Mount a suitable cutter in the milling machine spindle.

7. Set the machine for the proper speed for the size of cutter and the material to be machined.

8. Start the machine and raise the table until the cutter just touches the right-hand end of side 1.

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9. Move the work clear of the cutter.

10. Raise the table about .030 in. and machine side 1 using a steady feed rate.

11. Take the work out of the vise and remove all burrs from the edges with a file.

Machining Side 212. Clean the vise and work thoroughly.

13. Place the work on the vise with Side 1 against the solid jaw of the vise and Side 2 up.

14. Place a round bar between Side 4 and the movable jaw, if necessary.

15. Secure the workpiece in the vise by tapping with a soft-faced hammer.

16. Machine Side 2.

17. Remove the workpiece from the vise and file the burrs from the edges.

Machining Side 318. Clean the vise and work.

19. Place Side 2 facing down with Side 1 remaining against the solid jaw of the vise.

20. Place the round bar between side 4 and the movable jaw.

21. Tighten the vise securely and tap the workpiece down.

22. Start the machine and raise the table until the cutter just touches the right-hand end of Side 3.

23. Move the work clear of the cutter and raise the table about .010 in.

24. Take a trial cut, stop the machine, and measure the width of the work.

25. Raise the table the required amount and machine Side 3 to the correct width.

26. Remove the work and file off all burrs.

Machining Side 427. Clean the vise and work.

28. Place Side 1 down on the vise with Side 4 up.

29. Tighten the vise.

30. Machine Side 4 to the correct size.

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MACHINING THE ENDS SQUARETwo common methods are used to square

the ends of the workpieces in a vertical mill. Short pieces are generally held vertically in the vise and are machined with an end mill or flycutter. Long pieces are generally held flat in the vise with one end extending past the end of the vise. The end surface is then cut square with an end mill.

Short Work Squaring1. Set the work in the center of the vise with one of the end up and tighten the vise.2. Hold a square down firmly on the top and bring the blade into contact with the side of the work.3. Tap the work until its edge is aligned with the blade of the square.4. Tighten the vise securely and recheck the squareness.5. Take about 0.030 in. cut and machine the end square.6. Remove the burrs from the end of the machined surface.7. Clean the vise and set the machined end on paper feelers in the bottom of the vise.8. Tighten the vise securely and tap the work down until the paper feelers are tight.9. Take a trial cut from the end to clean up the surface.10. Measure the length of the workpiece with a depth micrometer.11. Raise the table the required amount and machine the work to length.

MACHINING AN ANGULAR SURFACE

1. Layout and mark the angular surface.

2. Clean the vise.

3. Align the vise with the direction of feed.

4. Mount the work on parallels in the vise.

5. Swivel the vertical head to the required angle.

6. Tighten the quill clamp.

7. Start the machine and raise the table until the cutter touches the work. Carefully raise the table to set the desired depth of cut.

8. Take a trial cut for about 1/2 inch.

9. Check the angle with a protractor

10. If the angle is correct, continue the cut.

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11. Machine to the required depth, taking several cuts if necessary

Alternate MethodAngles may sometimes be cut by leaving the head in a vertical position and setting the work

on an angle in the vise. This will depend on the shape and size of the workpiece. Sometimes, a universal vise can be set to the required angle.

CUTTING SLOTS AND KEYWAYS

Slots and keyseats with one or two blind ends may be cut in shafts more easily on a vertical milling machine, using a two- or three-fluted end mill.1. Lay out the position of the keyseat on the shaft and scribe reference lines on the end of the shaft.2. Secure the workpiece in a vise on a parallel. If the shaft is long, it may be clamped directly to the table by placing it in one of the table slots, or on V-blocks3. Using the layout lines on the end of the shaft, set up the shaft so that the keyseat layout is in the proper position on the top of the shaft.4. Mount a two- or three-fluted end mill of a diameter equal to the width of the keyway, in the milling machine spindle.

NOTE: If the keyseat has two blind ends, a two- or three-lip end mill must be used since they will act as a drill to start the slot. If the slot is at an end of the shaft (one blind end), a four-fluted end mill may be used, but a two- or three-lip end mill would give better chip clearance.

5. Center the workpiece by carefully touching the cutter to one side of the shaft. A thin piece of paper can be used to protect the finish of the shaft.6. Lower the table until the cutter clears the workpiece.7. Move the table over an amount equal to half the diameter of the shaft plus half the diameter of the cutter (plus the thickness of paper if used).NOTE: Alternate methods include the use of an

edge finder or a dial test (trammel) indicator.8. If the keyseat being cut has two blind ends, adjust the work until the end of the keyseat is aligned with the edge of the cutter.9. Feed the cutter down (or the table up) until the cutter just cuts to its full diameter. If the keyseat has only one blind end, the work is adjusted so that this cut is taken at the end of the work. The work is then moved clear of the cutter.10. Set the depth of cut to one-half the thickness of the key and machine the keyseat to the proper length.

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WOODRUFF KEYS

Woodruff Keys are used when keying shafts and mating parts. Woodruff keyseats are more quickly cut than are square keyseats, and the key should not require any fitting after the keyseat has been cut. Woodruff keys are semicircular in shape and can be purchased in standard sizes (designated by E numbers). They can also be made from round bar stock of the required diameter.

Woodruff Keyseat cutters have shank diameters of 1/2 in. for cutters up to 11/2 inches in diameter. The shank is undercut adjacent to the cutter to permit the cutter to into the proper depth. The sides of the cutter are slightly tapered toward the center to permit clearance while cutting. Cutters over 2 in. are mounted on an arbor.

The size of the cutter is stamped on the shank. The last two digits indicate the nominal diameter in eighths of an inch. The digit or digits preceding the last two numbers indicate the nominal width of the cutter in thirty-seconds of an inch. Thus, a cutter marked 608 would be 8 x 1/8 or 1 inch in diameter, and 6 x 1/32, or 3/16 in. wide. The key would be a semicircular cross section to fit the groove exactly.

Cutting a Woodruff Keyseat.1. Align the spindle of the vertical milling machine to 90O.2. Lay out the position of the keyseat.3. Set the shaft in the vise of the milling machine or on V-blocks. Be sure that the shaft is level and parallel to the table.4. Mount a cutter of the proper size in the spindle.5. Start the cutter and touch the bottom of the cutter to the top of the workpiece. Set the vertical graduated feed collar to zero.6. Move the work clear of the cutter. Raise the table half of the diameter of the work plus half the thickness of the cutter. Lock the knee at this position.7. Position the center of the slot with the center of the cutter. Lock the table in this position.8. Touch the revolving cutter to the work. Set the crossfeed collar to zero.9. Cut the keyseat to the proper depth.