Page 83 - THREADING CATALOG
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USER GUIDE
Depth Per Pass and Number of Passes
In order to produce threads, the cutting tool needs to Example
make several numbers of cuts along the workpiece Pitch - 1.25 mm
surface. The parameters of depth per pass and number of Total depth of cut: ap=0.78 mm THREAD TURNING
passes have a very important role in threading production. Number of passes: na = 6
These parameters have a direct effect on cutting edge st
wear, tool life, threading surface quality, and threading • Calculation depth of cut for 1 pass:
st
production stability. The two methods most common in for 1 pass: C=0.3
determining the depth per pass and the number of passes
are constant chip area by decreasing depth per pass or ∆ap(1) = 0.78 × √ = 0.19
constant depth per pass. The choice of method does not √6-1 0.3
depend on the selected infeed methods (radial infeed, depth of cut for 1 pass: 0.19 mm
st
flank infeed, modified flank infeed, alternating flank infeed),
nd
which are described in chapter 2.12. The depth per pass • Calculation depth of cut for 2 pass:
nd
and number of passes parameters depend on the type of for 2 pass: C=1
equipment, tool overhang, machine stability, workpiece
material, cutter geometry and the threading depth required. 0 .78
∆ap(2) = × √ = 0.35
1
√6-1
Constant Chip Area by Decreasing nd
Depth Per Pass (recommended) depth of cut for 2 pass: 0.35-0.19=0.16 mm
This is the most common method and is generally • Calculation depth of cut for 3rd pass:
for 3rd pass: C=3-1=2
recommended, as in most cases it ensures high
productivity. The principle of this method is that the initial
cutting depth at the first pass is the largest, and then ∆ap(3) = 0 .78 × √ = 0.49
2
gradually decreases at each pass to ensure material √6-1
removal within a constant chip area. The calculation of depth of cut for 3 pass: 0.49-0.35=0.14 mm
rd
passes is designed so that the last pass, which is destined th
to be a finish pass, will be 0.05 - 0.1 mm (0.0019 - 0.0039 • Calculation depth of cut for 4 pass:
th
inches). Using this method ensures constant loads on for 4 pass: C=4-1=3
cutting edge and uniform wear, which increases tool life. 0 .78
∆ap(4) = × √ = 0.6
3
√6-1
depth of cut for 4 pass: 0.6-0.49=0.11 mm
th
th
• Calculation depth of cut for 5 pass:
for 5 pass: C=5-1=4
th
0 .78
∆ap(5) = × √ = 0.7
4
√6-1
th
depth of cut for 5 pass: 0.7-0.6=0.1 mm
• Calculation depth of cut for 6 pass:
th
th
for 6 pass: C=6-1=5
0 .78
∆ap(6) = × √ = 0.78
5
√6-1
Formula for Calculation of Depth Per Pass
depth of cut for 6 pass: 0.78-0.7=0.08 mm
th
ap
∆ap(i) = × √ C
√n -1
a
When
∆ap(i) — depth of cut i pass (i = 1...na)
I — pass
Ap — total depth of cut
Na — number of passes
C — constant value:
st
nd
for 1 pass: c=0.3; for 2 pass: c=1;
for 3rd pass and higher: c = i − 1
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