22mm Self Cutting Tap



After completing this unit, you should be able to:

  • Identify and select vertical milling machine setups and operations for a variety of machining tasks.
  • Select a proper cutting speed for different types of materials.
  • Calculate cutting speeds and feeds for end milling operations.
  • Explain how to correctly set up for power feed tapping.

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Cutting speed is defined as the speed at the outside edge of the tool as it is cutting. This is also known as surface speed. Surface speed, surface footage, and surface area are all directly related. If two tools of different sizes are turning at the same revolutions per minute (RPM), the larger tool has a greater surface speed. Surface speed is measured in surface feet per minute (SFM). All cutting tools work on the surface footage principle. Cutting speeds depend primarily on the kind of material you are cutting and the kind of cutting tool you are using. The hardness of the work material has a great deal to do with the recommended cutting speed. The harder the work material, the slower the cutting speed. The softer the work material, the faster the recommended cutting speed (See Figure 1).

Steel Iron Aluminum Lead

Figure 1: Increasing Cutting Speed Based on work material hardness

The hardness of the cutting tool material will also have a great deal to do with the recommended cutting speed. The harder the drill, the faster the cutting speed. The softer the drill, the slower the recommended cutting speed (See Figure 2).

Carbon Steel High Speed Steel Carbide

Figure 2: Increasing Cutting Speed Based on Cutting tool hardness

Table 1: Cutting Speeds for Material Types

Type of MaterialCutting Speed (SFM)
Low Carbon Steel40-140
Medium Carbon Steel70-120
High Carbon Steel65-100
Free-machining Steel100-150
Stainless Steel, C1 302, 30460
Stainless Steel, C1 310, 31670
Stainless Steel, C1 410100
Stainless Steel, C1 416140
Stainless Steel, C1 17-4, pH50
Alloy Steel, SAE 4130, 414070
Alloy Steel, SAE 403090
Tool Steel40-70
Cast Iron–Regular80-120
Cast Iron–Hard5-30
Gray Cast Iron50-80
Aluminum Alloys300-400
Nickel Alloy, Monel 40040-60
Nickel Alloy, Monel K50030-60
Nickel Alloy, Inconel5-10
Cobalt Base Alloys5-10
Titanium Alloy20-60
Unalloyed Titanium35-55
Copper100-500
Bronze–Regular90-150
Bronze–Hard30-70
Zirconium70-90
Brass and Aluminum200-350
Silicon Free Non-Metallics100-300
Silicon Containing Non-Metallics30-70

Once the SFM for a given material and tool is determined, the spindle can be calculated since this value is dependent on cutting speed and tool diameter.

RPM = (CS x 4) / D

Where:

  • RPM = Revolutions per minute.
  • CS = Cutter speed in SFM.
  • D = Tool Diameter in inches.

The feed (milling machine feed) can be defined as the distance in inches per minute that the work moves into the cutter.

On the milling machines we have here at LBCC, the feed is independent of the spindle speed. This is a good arrangement and it permits faster feeds for larger, slowly rotating cutters.

The feed rate used on a milling machine depends on the following factors:

  1. The depth and width of cut.
  2. The type of cutter.
  3. The sharpness of the cutter.
  4. The workpiece material.
  5. The strength and uniformity of the workpiece.
  6. The finish required.
  7. The accuracy required.
  8. The power and rigidity of the machine, the holding device, and the tooling setup.

Feed per tooth, is the amount of material that should be removed by each tooth of the cutter as it revolves and advances into the work.

As the work advances into the cutter, each tooth of the cutter advances into the work an equal amount producing chips of equal thickness.

This chip thickness or feed per tooth, along with the number of teeth in the cutter, form the basis for determining the rate of feed.

The ideal feed rate for milling is measured in inches per minute (IPM) and is calculated by this formula:

IPM = F x N x RPM

Where:

  • IPM = feed rate in inches per minute
  • F = feed per tooth
  • N = number of teeth
  • RPM = revolutions per minute

For Example:

Feeds for end mills used in vertical milling machines range from .001 to .002 in. feed per tooth for very small diameter cutters on steel work material to .010 in. feed per tooth for large cutters in aluminum workpieces. Since the cutting speed for mild steel is 90, the RPM for a 3/8” high-speed, two flute end mill is

RPM = CS x 4 / D = 90 x 4 / (3/8) = 360 /.375 = 960 RPM

To calculate the feed rate, we will select .002 inches per tooth

22mm X 1.5 Tap

IPM = F x N x RPM = .002 x 2 x 960 = 3.84 IPM

The machine movement that causes a cutting tool to cut into or along the surface of a workpiece is called feed.

The amount of feed is usually measured in thousandths of an inch in metal cutting.

Feeds are expressed in slightly different ways on various types of machines.

Drilling machines that have power feeds are designed to advance the drill a given amount for each revolution of the spindle. If we set the machine to feed at .006” the machine will feed .006” for every revolution of the spindle. This is expressed as (IPR) inches per revolution

Good Practices:

Using Tap Guides

Tap guides are an integral part in making a usable and straight thread. When using the lathe or the mill, the tap is already straight and centered. When manually aligning a tap, be careful, as a 90° tap guide is much more accurate than the human eye.

22mm Self Cutting Tap

Using Oil

When drilling and tapping, it is crucial to use oil. It keeps the bits from squealing, makes the cut smoother, cleans out the chips, and keeps the drill and stock from overheating.

Pecking

Pecking helps ensure that bits don’t overheat and break when using them to drill or tap. Peck drilling involves drilling partway through a part, then retracting it to remove chips, simultaneously allowing the piece to cool. Rotating the handle a full turn then back a half turn is common practice. Whenever the bit or tap is backed out, remove as many chips as possible and add oil to the surface between the drill or tap and the workpiece.

  1. Select a drill size from the chart.
    When choosing a tap size, this chart is the first place to look.
Tap
  1. If necessary, add a chamfer to the hole before tapping.
    Chamfers and countersinks are additional features that are sometimes desired for screws. For best results, the speed of the spindle should be between 150 and 250 rpm.
  2. Get a tap guide.
    The hole is now ready to tap. To do this, use the taps and guide blocks near the manual mills. The guide blocks will have several holes for different sized taps. Select the one closest to the size of the tap being used and place it over the drilled hole.
  3. Tap the threads.
    Peck tap using the tap wrenches. Apply gentle pressure while turning the wrench a complete turn in, then a half-turn out. Peck tap to the desired depth.
  4. Complete the tap.
    If the tap does not go any further or the desired depth has been reached, release pressure on the tap; it has likely bottomed out. Remove the tap from the hole.Applying any more pressure is likely to break the tap. The smaller the tap, the more likely it is to break.
  1. Power feed tapping is similar to hand tapping. Instead of tapping by hand, however, use the vertical mill to tap the workpiece.
  2. Before starting the machine, change the mill to low gear.
  3. Release the quill lock and move the quill to the lowest it can go. This ensures that there is sufficient space to tap to the desired depth.
  4. Turn the spindle on FORWARD and set the spindle speed to 60 RPM.
  5. Feed the tap down. When the tap grabs the stock, it will automatically feed itself into the hole.
  6. When the desired depth has been reached, quickly flip the spindle direction switch from forward to reverse. This will reverse the direction of the tap and remove it from the hole. Reversing the direction in one fluid motion will prevent damage to the tapped hole and the tap.
  7. Turn off the machine.
  8. Clean the tapped hole, tap, and power feed machine before leaving.
  1. Explain cutting speeds for harder and softer materials.
  2. What is the cutting speed for Tool Steel and Aluminum?
  3. Calculate the RPM for a ½ in. diameter HSS end mill to machine aluminum.
  4. Calculate the feed rate for a three-flute tool. Use the RPM from Question 3.
  5. Calculate the RPM for a ¾ in. diameter HSS end mill to machine bronze.
  6. Calculate the feed rate for two-flute ½ in. diameter carbide end mill to machine low-carbon steel.
  7. What is the purpose of pecking when using them to drill or tap?
  8. Select a proper drill size for 5/16 – 24 tap.
  9. Why are cutting fluids used?
  10. Describe the difference between hand and power feed tapping.

Coarse | Fine & Extra Fine

We have a huge assortment of standard and special sizes including inch, metric and british sizes.

Machine

Did you know you can order special size taps manufactured in 24 hours?

ISO Metric Coarse Taps

Self

THREAD DATA CHART: Metric Thread -- Coarse Pitch

Nominal Size ISO M Thread Form Type Major Diameter mm d=D Pitch mm p Root Radius mm r Pitch Diameter mm d2=D2 Minor Diameter Male Thd. d3 Minor Diameter Female Thd. D1 Thread Height Male Thd. h3 Thread Height Female Thd. H1 Tap Drill Diameter mm
1.00 M 1.00 0.25 0.036 0.838 0.693 0.729 0.153 0.135 0.75
1.10 M 1.10 0.25 0.036 0.938 0.793 0.829 0.153 0.135 0.85
1.20 M 1.20 0.25 0.036 1.038 0.893 0.929 0.153 0.135 0.95
1.40 M 1.40 0.30 0.043 1.205 1.032 1.075 0.184 0.162 1.10
1.60 M 1.60 0.35 0.051 1.373 1.171 1.221 0.215 0.189 1.25
1.80 M 1.80 0.35 0.051 1.573 1.371 1.421 0.215 0.189 1.45
2.00 M 2.00 0.40 0.058 1.740 1.509 1.567 0.245 0.217 1.60
2.20 M 2.20 0.45 0.065 1.908 1.648 1.713 0.276 0.244 1.75
2.50 M 2.50 0.45 0.065 2.208 1.948 2.013 0.276 0.244 2.05
3.00 M 3.00 0.50 0.072 2.675 2.387 2.459 0.307 0.271 2.50
3.50 M 3.50 0.60 0.087 3.110 2.764 2.850 0.368 0.325 2.90
4.00 M 4.00 0.70 0.101 3.545 3.141 3.242 0.429 0.379 3.30
4.50 M 4.50 0.75 0.108 4.013 3.580 3.688 0.460 0.406 3.80
5.00 M 5.00 0.80 0.115 4.480 4.019 4.134 0.491 0.433 4.20
6.00 M 6.00 1.00 0.144 5.350 4.773 4.917 0.613 0.541 5.00
7.00 M 7.00 1.00 0.144 6.350 5.773 5.917 0.613 0.541 6.00
8.00 M 8.00 1.25 0.180 7.188 6.466 6.647 0.767 0.677 6.80
9.00 M 9.00 1.25 0.180 8.188 7.466 7.647 0.767 0.677 7.80
10.00 M 10.00 1.50 0.217 9.026 8.160 8.376 0.920 0.812 8.50
11.00 M 11.00 1.50 0.217 10.026 9.160 9.376 0.920 0.812 9.50
12.00 M 12.00 1.75 0.253 10.863 9.853 10.106 1.074 0.947 10.20
14.00 M 14.00 2.00 0.289 12.701 11.546 11.835 1.227 1.083 12.00
16.00 M 16.00 2.00 0.289 14.701 13.546 13.835 1.227 1.083 14.00
18.00 M 18.00 2.50 0.361 16.376 14.933 15.394 1.534 1.353 15.50
20.00 M 20.00 2.50 0.361 18.376 16.933 17.294 1.534 1.353 17.50
22.00 M 22.00 2.50 0.361 20.376 18.933 19.294 1.534 1.353 19.50
24.00 M 24.00 3.00 0.433 22.051 20.319 20.752 1.840 1.624 21.00
27.00 M 27.00 3.00 0.433 25.051 23.319 23.752 1.840 1.624 24.00
30.00 M 30.00 3.50 0.505 27.727 25.706 26.211 2.147 1.894 26.50
33.00 M 33.00 3.50 0.505 30.727 28.706 29.211 2.147 1.894 29.50
36.00 M 36.00 4.00 0.577 33.402 31.093 31.670 2.454 2.165 32.00
39.00 M 39.00 4.00 0.577 36.402 34.093 34.670 2.454 2.165 35.00
42.00 M 42.00 4.50 0.650 39.077 36.479 37.129 2.760 2.436 37.50
45.00 M 45.00 4.50 0.650 42.077 39.479 40.129 2.760 2.436 40.50
48.00 M 48.00 5.00 0.722 44.752 41.866 42.857 3.067 2.706 43.00
52.00 M 52.00 5.00 0.722 48.752 45.866 46.587 3.067 2.706 47.00
56.00 M 56.00 5.50 0.794 52.428 49.252 50.046 3.374 2.977 50.50
60.00 M 60.00 5.50 0.794 56.428 53.252 54.046 3.374 2.977 54.50
64.00 M 64.00 6.00 0.866 60.103 56.639 57.505 3.681 3.248 58.00
68.00 M 68.00 6.00 0.866 64.103 60.639 61.505 3.681 3.248 62.00

when ordering taps please specify the diameter and pitch and style of tap

examples

TAPM6X1-1 for M6 x 1 taper tap TAPM6X1-2 for M6 x 1 plug tap TAPM6X1-3 for M6 x 1 bottoming tap TAPM6X1SP for M6 x 1 spiral pointed tap TAPM6X1QS for M6 x 1 quick spiral tap

22mm Self Cutting Tape

ISO Metric Fine and Extra Fine Taps

THREAD DATA CHART: Metric Thread -- Fine Pitch

Nominal Size ISO MF Thread Form Type Major Diameter mm d=D Pitch mm p Root Radius mm r Pitch Diameter mm d2=D2 Minor Diameter Male Thd. d3 Minor Diameter Female Thd. D1 Thread Height Male Thd. h3 Thread Height Female Thd. H1 Tap Drill Diameter mm
1.0x0.2 M 1.00 0.20 0.029 0.870 0.755 0.783 0.123 0.108 0.80
1.1x0.2 M 1.10 0.20 0.029 0.970 0.855 0.883 0.123 0.108 0.90
1.2x0.2 M 1.20 0.20 0.029 1.070 0.955 0.983 0.123 0.108 1.00
1.4x0.2 M 1.40 0.20 0.029 1.270 1.155 1.183 0.123 0.108 1.20
1.6x0.2 M 1.60 0.20 0.029 1.470 1.355 1.383 0.123 0.108 1.40
1.8x0.2 M 1.80 0.20 0.029 1.670 1.555 1.583 0.123 0.108 1.60
2x0.25 M 2.00 0.25 0.036 1.838 1.693 1.729 0.153 0.135 1.75
2.2x0.25 M 2.20 0.25 0.036 2.038 1.893 1.929 0.153 0.135 1.95
2.5x0.35 M 2.50 0.35 0.051 2.273 2.071 2.121 0.215 0.189 2.10
3x0.35 M 3.00 0.35 0.051 2.773 2.571 2.621 0.215 0.189 2.60
3.5x0.35 M 3.50 0.35 0.051 3.273 3.071 3.121 0.215 0.189 3.10
4x0.5 M 4.00 0.50 0.072 3.675 3.387 3.459 0.307 0.271 3.50
4.5x0.5 M 4.50 0.50 0.072 4.175 3.887 3.959 0.307 0.271 4.00
5x0.5 M 5.00 0.50 0.072 4.675 4.387 4.459 0.307 0.271 4.50
5.5x0.5 M 5.50 0.50 0.072 5.175 4.887 4.959 0.307 0.271 5.00
6x0.75 M 6.00 0.75 0.108 5.513 5.080 5.188 0.460 0.406 5.20
7x0.75 M 7.00 0.75 0.108 6.513 6.080 6.188 0.460 0.406 6.20
8x0.75 M 8.00 0.75 0.108 7.513 7.080 7.188 0.460 0.406 7.20
8x1.0 M 8.00 1.00 0.144 7.350 6.773 6.917 0.613 0.541 7.00
9x0.75 M 9.00 0.75 0.108 8.513 8.080 8.188 0.460 0.406 8.20
9x 1 M 9.00 1.00 0.144 8.350 7.773 7.917 0.613 0.541 8.00
10x0.75 M 10.00 0.75 0.108 9.513 9.080 9.188 0.460 0.406 9.20
10x1 M 10.00 1.00 0.144 9.350 8.773 8.917 0.613 0.541 9.00
10x1.25 M 10.00 1.25 0.180 9.188 8.466 8.647 0.767 0.677 8.80
11x0.75 M 11.00 0.75 0.108 10.513 10.080 10.188 0.460 0.406 10.20
11x1 M 11.00 1.00 0.144 10.350 9.773 9.917 0.613 0.541 10.00
12x1 M 12.00 1.00 0.144 11.350 10.773 10.917 0.613 0.541 11.00
12x1.25 M 12.00 1.25 0.180 11.188 10.466 10.647 0.767 0.677 10.80
12x1.5 M 12.00 1.50 0.217 11.026 10.160 10.376 0.920 0.812 10.50
14x1.0 M 14.00 1.00 0.144 13.350 12.773 12.917 0.613 0.541 13.00
14x1.25 M 14.00 1.25 0.180 13.188 12.466 12.647 0.767 0.677 12.80
14x1.5 M 14.00 1.50 0.217 13.026 12.160 12.376 0.920 0.812 12.50
15x1 M 15.00 1.00 0.144 14.350 13.773 13.917 0.613 0.541 14.00
15x1.5 M 15.00 1.50 0.217 14.026 13.160 13.376 0.920 0.812 13.50
16x1 M 16.00 1.00 0.144 15.350 14.773 14.917 0.613 0.541 15.00
16x1.5 M 16.00 1.50 0.217 15.026 14.160 14.376 0.920 0.812 14.50
17x1.0 M 17.00 1.00 0.144 16.350 15.773 15.917 0.613 0.541 16.00
17x1.5 M 17.00 1.50 0.217 16.026 15.160 15.376 0.920 0.812 15.50
18x1.0 M 18.00 1.00 0.144 17.350 16.773 16.917 0.613 0.541 17.00
18x1.5 M 18.00 1.50 0.217 17.026 16.160 16.376 0.920 0.812 16.50
18x2.0 M 18.00 2.00 0.289 16.701 15.546 15.835 1.227 1.083 16.00
20x1.0 M 20.00 1.00 0.144 19.350 18.773 18.917 0.613 0.541 19.00
20x1.5 M 20.00 1.50 0.217 19.026 18.160 18.376 0.920 0.812 18.50
20x2.0 M 20.00 2.00 0.289 18.701 17.546 17.835 1.227 1.083 18.00
22x1.0 M 22.00 1.00 0.144 21.350 20.773 20.917 0.613 0.541 21.00
22x1.5 M 22.00 1.50 0.217 21.026 20.160 20.376 0.920 0.812 20.50
22x2.0 M 22.00 2.00 0.289 20.701 19.546 19.835 1.227 1.083 20.00
24x1.0 M 24.00 1.00 0.144 23.350 22.773 22.917 0.613 0.541 23.00
24x1.5 M 24.00 1.50 0.217 23.026 22.160 22.376 0.920 0.812 22.50
24x2.0 M 24.00 2.00 0.289 22.701 21.546 21.835 1.227 1.083 22.00
25x1.0 M 25.00 1.00 0.144 24.350 23.773 23.917 0.613 0.541 24.00
25x1.5 M 25.00 1.50 0.217 24.026 23.160 23.376 0.920 0.812 23.50
25x2.0 M 25.00 2.00 0.289 23.701 22.546 22.835 1.227 1.083 23.00
27x1.0 M 27.00 1.00 0.144 26.350 25.773 25.917 0.613 0.541 26.00
27x1.5 M 27.00 1.50 0.217 26.026 25.160 25.376 0.920 0.812 25.50
27x2.0 M 27.00 2.00 0.289 25.701 24.546 24.835 1.227 1.083 25.00
28x1.0 M 28.00 1.00 0.144 27.350 26.773 26.917 0.613 0.541 27.00
28x1.5 M 28.00 1.50 0.217 27.026 26.160 26.376 0.920 0.812 26.50
28x2.0 M 28.00 2.00 0.289 26.701 25.546 25.835 1.227 1.083 26.00

when ordering taps please specify the diameter and pitch and style of tap

TAPM6X.75-1 for M6 x .75 taper tap TAPM6X.75-2 for M6 x .75 plug tap TAPM6X.75-3 for M6 x .75 bottoming tap

Large Metric Fine Taps
Nominal Size
30 x 1.0
30x 1.5
30 x 2.0
30 x 3.0
32 x 1.5
32 x 2.0
33 x 1.5
33 x 2.0
33 x 3.0
35 x 1.5
36 x 1.5
36 x 2.0
36 x 3.0
38 x 1.5
38 x 2.0
39 x 1.5
39 x 2.0
39 x 3.0
40 x 1.5
40 x 2.0
40 x 3.0
42 x 1.5
42 x 2.0
42 x 3.0
42 x 4.0
45 x 1.5
45 x 2.0
45 x 3.0
48 x 1.5
48 x 2.0
48 x 3.0
48 x 4.0
50 x 1.5
50 x 3.0
52 x 2.0
52 x 3.0
56 x 2.0
56 x 4.0
60 x 2.0
60 x 4.0
62 x 2.0
64 x 2.0
64 x 3.0
64 x 4.0

22mm Taper Tap

when ordering taps please specify the diameter and pitch and style of tap

22mm Self Cutting Washing Machine Tap

TAPM6X.75-1 for M6 x .75 taper tap TAPM6X.75-2 for M6 x .75 plug tap TAPM6X.75-3 for M6 x .75 bottoming tap