Valve Sizing W IEC Noise - Liquid I
Valve Sizing W IEC Noise - Liquid I
Valve Sizing W IEC Noise - Liquid I
Qf= 746.42
0.7
0.6
0.3
0.0
0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 Flow units are gpm
Relative Travel, h
Installed Gain
4
3.5
BALL_SEG
3
3 PV123
Gain, d(Q/Qmax)/dh
2.5
Qmax = maximum
1.5
design flow = 550
1
Qmin = minimum
design flow = 80
0.5
0
0.0 0.1 0.2 0.3 0.4Q/Qmax
0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 Flow units are gpm
Only the values in the Typical FL values table are available for the user to copy and transfer
to the Valve Sizing tab. The other tables for Fd, xFz and Aη are automatially transferred to the Valve Sizing
and no user action is required.
Typical Fd values based on the Relative Travel on the Valve Sizing tab.
on the Valve Sizing tab. Fd is only used in the IEC noise calculation.
This data is automaically copied to the Valve Sizing tab.
Valve type Valve style modifier, Fd
Typical xFz values based on the Cv reported on Line 19 of the Valve Sizing tab
and the valve size entered in D15 of the Valve Sizing tab.
This data is automaically copied to the Valve Sizing tab.
Differential pressure ratio of incipient
Valve type cavitation, xFz
Aη
Globe -4.6
Eccendtric rotary plug -4.6
Ball, Segment ball -4.6
Butterfly -4.3
0.93 0.88 1. Copy FL values: Highlight all 4 columns in the row for the valve type
you are sizing.
0.89 0.78 2. Press Ctrl + C
3. Go to the Valve Sizing tab
0.93 0.72 4. Right Click on D9.
5. From "Paste Options" Select "Values"
0.85 0.58
You may need to repeat Steps 1 through 5 one or two more times until
0.91 0.67 the FL values on this tab agree closely with what are on the Valve Sizing tab.
Intermediate calculations
VCAP_Cv_T
Cv_over_d_Sq_T
The value of "Cv_over_d_Sq_T" is calculated from the flow coef. on
the Valve Sizing tab converted to Cv if the worksheet has been configured
for Kv and Valve size on the Valve Sizing tab is converted to inch
if the worksheet has been configured for valve size in mm.
Fd calculations
Valve travel from Valve Travel tab
Relative travel
Relatve travel
Fd_GCE
Relatve travel
Fd_GCL
Relatve travel
Fd_GPE
Relatve travel
Fd_GPL
Relatve travel
Relatve travel
Fd_RP
Segment ball
Relatve travel
Fd_SEG
Butterfly
Relatve travel
Fd_BF
Relatve travel
Fd_FB
Conversion from Pounds per hour to Gallons per minute (gpm) Case 1 Case 2
Conversion from Kilograms per hour to cubic meters per hour (m3/h)
Data input
Final results
ss flow entered in the blue
Intermediate Calculations
Case 3 Case 4
Density based on Specific Gravity on the Valve Sizing Tab
211575 275099 lbm/ft 3
RHO_lb 62.37 62.37 62.37 62.37
423.02 550.03 kg/m 3
RHO_kg 999.1 999.1 999.1 999.1
95977 124793
96.067 124.910
IEC_1 3 1 = m3/s 2 = m3/h, 3 = gpm
IEC_2 4 1 = Pa, 2 = kPa, 3 = bar, 4 = psiA
n Flag IEC_6)
N_14 0.0046
N_34 1.17
No user input is required for this tab.
Calculations based on IEC 60534-8-4: 2015
Lines 6 through 25, Columns D through G are automatically flled trom Columns S through V of the SPL Conv tab
64.588
ough V of the SPL Conv tab
F_turb(f_i)
1.00 -20.08 -22.678 -24.984 -26.226
2 -19 -21.606 -23.912 -25.154
3 -18 -20.637 -22.942 -24.185
4 -17 -19.668 -21.973 -23.216
5.0 -16.1 -18.664 -20.970 -22.212
6 -15 -17.626 -19.932 -21.175
7 -14 -16.658 -18.963 -20.206
8 -13.06260497 -15.654 -17.959 -19.202
9 -12.0415966906 -14.618 -16.922 -18.165
10 -11.1108671395 -13.653 -15.953 -17.196
11 -10.2340452292 -12.692 -14.985 -16.227
12 -9.41491650531 -11.645 -13.916 -15.156
13 -8.97654172193 -10.731 -12.954 -14.189
14.0000 -9.0824 -9.895 -12.001 -13.225
15.0000 -10.0229 -9.216 -11.039 -12.235
16.0000 -11.9019 -8.938 -10.112 -11.233
17.0000 -14.2482 -9.355 -9.389 -10.346
18 -17 -10.665 -8.961 -9.547
19 -20 -12.840 -9.162 -9.010
20 -22.871 -15.343 -10.181 -9.027
21 -25.761 -18.073 -11.993 -9.807
22 -28.970 -21.210 -14.630 -11.625
23 -31.875 -24.089 -17.314 -13.913
24 -34.781 -26.985 -20.126 -16.538
25 -37.792 -29.991 -23.097 -19.425
26 -40.904 -33.102 -26.193 -22.487
27 -43.812 -36.008 -29.095 -25.375
28 -46.823 -39.019 -32.103 -28.378
29 -49.935 -42.131 -35.215 -31.487
30 -52.842 -45.039 -38.122 -34.394
31 -55.750 -47.946 -41.029 -37.300
32 -58.966 -51.162 -44.245 -40.516
33 -61.873 -54.070 -47.152 -43.424
F_cav(f_i)
1 -31.829 -34.173 -36.996 -39.635
2 -30.221 -32.565 -35.388 -38.027
3 -28.768 -31.111 -33.934 -36.573
4 -27.314 -29.657 -32.481 -35.120
5 -25.809 -28.152 -30.975 -33.614
6 -24.253 -26.596 -29.419 -32.058
7 -22.800 -25.142 -27.965 -30.604
8 -21.297 -23.638 -26.460 -29.099
9 -19.744 -22.083 -24.904 -27.542
10 -18.298 -20.631 -23.451 -26.089
11 -16.859 -19.183 -21.999 -24.636
12 -15.283 -17.586 -20.394 -23.029
13 -13.887 -16.152 -18.946 -21.576
14 -12.544 -14.737 -17.503 -20.126
15 -11.257 -13.309 -16.019 -18.627
16 -10.125 -11.912 -14.508 -17.084
17 -9.366 -10.740 -13.137 -15.656
18 -9.011 -9.761 -11.796 -14.201
19 -9.178 -9.135 -10.566 -12.750
20 -9.794 -9.015 -9.662 -11.485
21 -10.746 -9.370 -9.116 -10.378
22 -12.053 -10.230 -9.042 -9.461
23 -13.365 -11.305 -9.469 -9.039
24 -14.745 -12.551 -10.286 -9.087
25 -16.211 -13.944 -11.416 -9.620
26 -17.747 -15.441 -12.766 -10.579
27 -19.191 -16.867 -14.121 -11.725
28 -20.691 -18.358 -15.573 -13.059
29 -22.245 -19.907 -17.102 -14.525
30 -23.698 -21.357 -18.543 -15.936
31 -25.151 -22.809 -19.990 -17.368
32 -26.758 -24.416 -21.595 -18.964
33 -28.212 -25.869 -23.047 -20.412
L_pi(f_i)
1 119.509 121.101 120.977 119.744
2 120.605 122.214 122.088 120.836
3 121.599 123.224 123.097 121.825
4 122.595 124.238 124.110 122.816
5 123.630 125.294 125.164 123.845
6 124.703 126.391 126.260 124.912
7 125.708 127.421 127.289 125.912
8 126.749 128.495 128.361 126.951
9 127.821 129.611 129.477 128.029
10 128.807 130.660 130.526 129.040
11 129.752 131.712 131.582 130.056
12 130.675 132.873 132.759 131.184
13 131.268 133.905 133.828 132.209
14 131.458 134.886 134.899 133.237
15 131.144 135.774 135.997 134.301
16 130.520 136.416 137.093 135.389
17 130.003 136.630 138.021 136.373
18 129.564 136.481 138.775 137.302
19 128.978 136.119 139.177 138.049
20 128.164 135.646 139.152 138.388
21 127.103 134.956 138.841 138.280
22 125.727 133.895 138.257 137.787
23 124.375 132.718 137.483 137.224
24 122.969 131.408 136.467 136.564
25 121.484 129.972 135.215 135.678
26 119.934 128.445 133.786 134.517
27 118.481 126.999 132.383 133.261
28 116.974 125.494 130.896 131.854
29 115.416 123.935 129.343 130.338
30 113.960 122.478 127.886 128.895
31 112.505 121.021 126.428 127.441
32 110.895 119.410 124.814 125.827
33 109.441 117.955 123.357 124.368
ΔTL(f_i)
1 -58.439 -58.439 -58.439 -58.439
2 -56.294 -56.294 -56.294 -56.294
3 -54.356 -54.356 -54.356 -54.356
4 -52.418 -52.418 -52.418 -52.418
5 -50.410 -50.410 -50.410 -50.410
6 -48.336 -48.336 -48.336 -48.336
7 -46.397 -46.397 -46.397 -46.397
8 -44.390 -44.390 -44.390 -44.390
9 -42.315 -42.315 -42.315 -42.315
10 -40.377 -40.377 -40.377 -40.377
11 -38.439 -38.439 -38.439 -38.439
12 -36.295 -36.295 -36.295 -36.295
13 -34.357 -34.357 -34.357 -34.357
14 -32.419 -32.419 -32.419 -32.419
15 -30.412 -30.412 -30.412 -30.412
16 -28.338 -28.338 -28.338 -28.338
17 -26.402 -26.402 -26.402 -26.402
18 -24.398 -24.398 -24.398 -24.398
19 -22.329 -22.329 -22.329 -22.329
20 -20.401 -20.401 -20.401 -20.401
21 -18.481 -18.481 -18.481 -18.481
22 -16.374 -16.374 -16.374 -16.374
23 -14.494 -14.494 -14.494 -14.494
24 -12.658 -12.658 -12.658 -12.658
25 -10.834 -10.834 -10.834 -10.834
26 -9.090 -9.090 -9.090 -9.090
27 -7.676 -7.676 -7.676 -7.676
28 -6.552 -6.552 -6.552 -6.552
29 -5.915 -5.915 -5.915 -5.915
30 -5.939 -5.939 -5.939 -5.939
31 -6.628 -6.628 -6.628 -6.628
32 -8.128 -8.128 -8.128 -8.128
33 -10.028 -10.028 -10.028 -10.028
TL(f_i)
1 -103.716 -103.716 -103.716 -103.716
2 -101.572 -101.572 -101.572 -101.572
3 -99.634 -99.634 -99.634 -99.634
4 -97.695 -97.695 -97.695 -97.695
5 -95.688 -95.688 -95.688 -95.688
6 -93.613 -93.613 -93.613 -93.613
7 -91.675 -91.675 -91.675 -91.675
8 -89.667 -89.667 -89.667 -89.667
9 -87.592 -87.592 -87.592 -87.592
10 -85.654 -85.654 -85.654 -85.654
11 -83.716 -83.716 -83.716 -83.716
12 -81.572 -81.572 -81.572 -81.572
13 -79.634 -79.634 -79.634 -79.634
14 -77.696 -77.696 -77.696 -77.696
15 -75.689 -75.689 -75.689 -75.689
16 -73.615 -73.615 -73.615 -73.615
17 -71.679 -71.679 -71.679 -71.679
18 -69.675 -69.675 -69.675 -69.675
19 -67.606 -67.606 -67.606 -67.606
20 -65.679 -65.679 -65.679 -65.679
21 -63.759 -63.759 -63.759 -63.759
22 -61.651 -61.651 -61.651 -61.651
23 -59.772 -59.772 -59.772 -59.772
24 -57.936 -57.936 -57.936 -57.936
25 -56.111 -56.111 -56.111 -56.111
26 -54.368 -54.368 -54.368 -54.368
27 -52.954 -52.954 -52.954 -52.954
28 -51.830 -51.830 -51.830 -51.830
29 -51.193 -51.193 -51.193 -51.193
30 -51.217 -51.217 -51.217 -51.217
31 -51.906 -51.906 -51.906 -51.906
32 -53.405 -53.405 -53.405 -53.405
33 -55.305 -55.305 -55.305 -55.305
L_pe,1m(f_i)
1 4.591 6.183 6.059 4.826
2 7.831 9.440 9.314 8.062
3 10.763 12.388 12.262 10.989
4 13.698 15.341 15.213 13.918
5 16.740 18.404 18.274 16.955
6 19.888 21.576 21.445 20.097
7 22.831 24.545 24.412 23.035
8 25.879 27.626 27.492 26.081
9 29.027 30.817 30.682 29.234
10 31.951 33.804 33.670 32.184
11 34.834 36.794 36.664 35.137
12 37.901 40.099 39.985 38.410
13 40.432 43.069 42.992 41.373
14 42.559 45.987 46.001 44.338
15 44.253 48.883 49.106 47.409
16 45.702 51.598 52.275 50.572
17 47.122 53.749 55.140 53.491
18 48.687 55.603 57.898 56.425
19 50.169 57.311 60.369 59.241
20 51.284 58.765 62.272 61.507
21 52.142 59.995 63.880 63.319
22 52.874 61.042 65.403 64.934
23 53.401 61.744 66.509 66.250
24 53.832 62.271 67.330 67.427
25 54.170 62.659 67.902 68.364
26 54.365 62.875 68.216 68.947
27 54.326 62.844 68.228 69.105
28 53.943 62.462 67.865 68.822
29 53.021 61.540 66.948 67.943
30 51.541 60.059 65.467 66.476
31 49.397 57.913 63.320 64.333
32 46.288 54.803 60.207 61.220
33 42.933 51.447 56.849 57.861
L_pAe,1m
1
2 1.298E-05 1.879E-05 1.826E-05 1.368E-05
3 1.063E-04 1.545E-04 1.500E-04 1.119E-04
4 7.939E-04 1.159E-03 1.125E-03 8.353E-04
5 5.420E-03 7.950E-03 7.717E-03 5.695E-03
6 0.034 0.050 0.048 0.035
7 0.183 0.272 0.264 0.192
8 0.929 1.389 1.346 0.973
9 4.494 6.787 6.580 4.714
10 19.280 29.537 28.639 20.341
11 75 117 114 80
12 282 468 456 317
13 898 1648 1619 1115
14 2489 5479 5496 3748
15 5824 16914 17807 12048
16 12309 47845 55915 37772
17 24670 113471 156315 106940
18 47723 234609 397894 283462
19 86478 447775 905488 698330
20 134386 752505 1687149 1414785
21 188034 1146827 2805382 2465430
22 243998 1600277 4368446 3920696
23 288491 1969818 5900813 5559562
24 325950 2275389 7294078 7458826
25 344384 2431430 8131409 9044712
26 343916 2440474 8348529 9878395
27 303791 2159536 7460475 9131471
28 242246 1722809 5976843 7450576
29 155634 1106683 3844371 4833886
30 80195 570074 1980341 2498139
31 32336 229790 797922 1007579
32 9307 66117 229453 289745
33 2309 16396 56873 71792
Travel, %
Case 1
Calc Cv 14.16
Cv @ travel % 0 4.73 11.6 23 39.4 61 88.2 121
Travel % 0 10 20 30 40 50 60 70
M 2.114 1.456 0.877 0.610 0.463 0.368 0.305 0.227
29.934 23.724 22.244 24.609 28.314 32.779 37.426 45.718
Vlv Trav @ Cv 22.2
VALVE Cv TABLES
Calc Cv 38.97
165 246 420 Travel, Cv @ travel % 0 4.73 11.6 23
80 90 100 Travel % 0 10 20 30
0.123 0.057 M 2.114 1.456 0.877 0.610
61.378 76.676 82.396 59.845 44.012 39.740
Vlv Trav @ Cv 39.7
90 100
224 480
560 1200
989 2120
2394 5100
4381 9300
7092 15200
10452 22400
13205 28300
17591 37700
22397 48000
27763 59500
40268 86300
55059 118000
63458 136000
70457 151000
89587 192000
90 100 Calc Cv 38.97
Travel, Cv @ travel % 0 3 7 15
6.3 9 Travel % 0 10 20 30
13 19 M 3.333 2.500 1.250 0.909
32 45 129.912 99.934 59.967 51.794
88 125 Vlv Trav @ Cv 46.8
115 165
245 350
301 550
535 765
1325 1890
2735 3900
4690 6700
3780 5400
5950 8500
6860 9800
9100 13000
90 100
24.1 45
69.3 110
108 180
170 280
246 420
393 620
719 1260
1164 2030
1831 3210
2601 4490
3320 6440
4432 8510
6778 13020
10255 19700
13171 25300
16659 32000
90 100
71 78
153 165
380 400
606 650
960 1050
2015 2200
3030 3300
4900 5100
5395 5800
7600 8000
9750 10500
12650 14000
19100 21600
26400 30000
29920 34000
36080 41000
49200 55500
65880 75000
72600 82650
95300 108300
117500 133500
126742 144000
139900 159000
90 100
71 78
153 165
380 400
960 1050
1650 1800
2890 3150
4570 4750
5100 5200
6750 6900
8900 9300
10600 11300
17400 18500
90 100
144 155
247 260
686 750
1238 1350
1927 2100
2790 2900
3923 4000
4989 5100
5263 5500
7458 7950
10628 11300
90 100
66 71
39.7 50
21.6 24
12.6 14
128 138
92 110
45 50
28.8 32
188.6 210
141.2 160
73.8 82
45 50
316 340
246.3 270
122.3 136
73.8 82
510 560
405 450
212.3 236
127.7 142
747.6 830
566.2 655
336.4 374
201.5 224
1155 1240
837.5 960
471.4 524
282.5 314
1514.7 1650
1141.5 1275
671.1 746
401.2 446
1911.6 2090
1432.4 1680
768.2 854
460.6 512
2469.5 2700
1620 1900
1025.5 1140
611.7 680
3292.7 3600
2131.6 2500
1349.3 1500
809.6 900
4756.1 5200
3112.1 3650
1979 2200
1169.4 1300
90 100
69.5 74
43.6 48
23.2 26
14.3 16
130.0 142
87.8 98
49.9 56
30.3 34
219.3 230
143.9 160
76.6 86
46.3 52
370.1 380
242.2 275
133.7 150
80.2 90
590.0 600
430.0 455
226.3 254
135.4 152
897.9 950
631.5 700
354.6 398
210.3 238
1250.0 1270
893.0 970
490.1 550
302.9 340
1671.4 1740
1221.2 1300
691.4 776
413.4 464
2161.6 2215
1398.9 1530
837.5 940
506.1 568
2634.9 2700
1737.2 1900
1015.7 1140
605.9 680
3513.2 3600
2285.8 2500
1336.5 1500
801.9 900
5074.6 5200
3337.2 3650
1960.2 2200
1158.3 1300
90 100
6.441 7
3.533 4
2.005 2.3
1.329 1.5
0.656 0.8
0.414 0.5
0.245 0.3
7.131 9
4.739 5.5
2.723 3
1.667 2
1.011 1.2
0.58 0.7
0.333 0.4
11.626 13.5
7.028 8.5
4.366 5.4
2.54 3.1
1.701 2
1.056 1.2
0.589 0.8
25.661 28
13.438 16
8.593 10.5
5.211 6
3.453 4
1.736 2.2
0.981 1.2
44.523 49
23.17 28
13.683 17
8.407 10
90.094 100
58.698 70
34.99 42
20.779 25
153.844 190
98.631 120
61.142 72
34.167 42
256.778 295
140.553 165
71.534 85
37.963 50
90 100
6.672 7
3.411 4
2.033 2.3
1.377 1.5
0.683 0.8
0.452 0.5
0.27 0.3
7.609 9
5.031 5.5
2.799 3
1.615 2
1.084 1.2
0.63 0.7
0.36 0.4
11.931 13.5
7.003 8.5
4.441 5.4
2.658 3.1
1.789 2
1.065 1.2
0.619 0.8
26.5 28
14.181 16
8.855 10.5
5.332 6
3.549 4
1.784 2.2
1.063 1.2
44.642 49
24.965 28
14.317 17
8.889 10
91.149 100
60.338 70
35.659 42
21.29 25
167.929 190
103.943 120
63.09 72
37.671 42
263.118 295
137.91 165
71.485 85
45.424 50
80 90 100
Calc Cv
39.4 61 88.2 121 165 246 420 Travel, Cv @ travel %
40 50 60 70 80 90 100 Travel %
0.463 0.368 0.305 0.227 0.123 0.057 M
39.803 41.902 44.992 51.358 64.441 78.102
Vlv Trav @ Cv
Calc Cv
26 45 74 105 165 245 350 Travel, Cv @ travel %
40 50 60 70 80 90 100 Travel %
0.526 0.345 0.323 0.167 0.125 0.095 M
46.828 47.922 48.701 58.996 64.247 70.378
Vlv Trav @ Cv
Case 3
88.58
0 4.73 11.6 23 39.4 61 88.2 121 165 246 420
0 10 20 30 40 50 60 70 80 90 100
2.114 1.456 0.877 0.610 0.463 0.368 0.305 0.227 0.123 0.057
187.265 132.047 87.523 69.986 62.767 60.138 60.115 62.631 70.565 80.953
60.1
88.58
0 3 7 15 26 45 74 105 165 245 350
0 10 20 30 40 50 60 70 80 90 100
3.333 2.500 1.250 0.909 0.526 0.345 0.323 0.167 0.125 0.095
295.254 223.941 121.970 96.888 72.935 65.026 64.702 67.263 70.447 75.103
64.7
Case 4
Calc Cv 135.57
Travel, Cv @ travel % 0 4.73 11.6 23 39.4 61 88.2 121
Travel % 0 10 20 30 40 50 60 70
M 2.114 1.456 0.877 0.610 0.463 0.368 0.305 0.227
286.611 200.447 128.743 98.638 84.522 77.414 74.441 73.311
Vlv Trav @ Cv 73.3
Calc Cv 135.57
Travel, Cv @ travel % 0 3 7 15 26 45 74 105
Travel % 0 10 20 30 40 50 60 70
M 3.333 2.500 1.250 0.909 0.526 0.345 0.323 0.167
451.890 341.418 180.709 139.606 97.667 81.230 79.860 75.095
Vlv Trav @ Cv 75.1
165 246 420
80 90 100
0.123 0.057
76.366 83.653
165 245 350
80 90 100
0.125 0.095
76.321 79.578
NO USER INPUT IS REQUIRED FOR THIS TAB.
PIPE WALL THICKNESS
Note: this data is believed to be accurate, but it is the user's responsibility to determine its applic
Outside
NPS Schedule
Diameter
(in) (in) (mm) 10 20 30 STD 40 60
Wall Thickness (in) (mm)
1/8 0.405 0.068 0.068
10.3 1.73 1.73
1/4 0.54 0.088 0.088
13.7 2.24 2.24
3/8 0.675 0.091 0.091
17.1 2.31 2.31
1/2 0.84 0.109 0.109
21.3 2.77 2.77
3/4 1.05 0.113 0.113
26.7 2.87 2.87
1 1.315 0.133 0.133
33.4 3.38 3.38
1 1/4 1.66 0.14 0.14
42.2 3.56 3.56
1 1/2 1.9 0.145 0.145
48.3 3.68 3.68
2 2.375 0.154 0.154
60.3 3.91 3.91
2 1/2 2.875 0.203 0.203
73 5.16 5.16
3 3.5 0.216 0.216
88.9 5.49 5.49
3 1/2 4 0.226 0.226
102 5.74 5.74
4 4.5 0.237 0.237
114 6.02 6.02
5 5.563 0.258 0.258
141 6.55 6.55
6 6.625 0.28 0.28
168 7.11 7.11
8 8.625 0.25 0.277 0.322 0.322 0.406
219 6.35 7.04 8.18 8.18 10.3
10 10.75 0.25 0.307 0.365 0.365 0.5
273 6.35 7.8 9.27 9.27 12.7
12 12.75 0.25 0.33 0.375 0.406 0.562
324 6.35 8.38 9.52 10.3 14.3
14 14 0.25 0.312 0.375 0.375 0.438 0.594
356 6.35 7.92 9.52 9.52 11.1 15.1
16 16 0.25 0.312 0.375 0.375 0.5 0.656
406 6.35 7.92 9.52 9.52 12.7 16.7
18 18 0.25 0.312 0.438 0.375 0.562 0.75
457 6.35 7.92 11.1 9.52 14.3 19
20 20 0.25 0.375 0.5 0.375 0.594 0.812
508 6.35 9.52 12.7 9.52 15.1 20.6
22 22 0.25 0.375 0.5 0.375 0.875
559 6.35 9.52 12.7 9.52 22.2
24 24 0.25 0.375 0.562 0.375 0.688 0.969
610 6.35 9.52 14.3 9.52 17.5 24.6
30 30 0.312 0.5 0.625 0.375
762 7.92 12.7 15.9 9.52
32 32 0.312 0.5 0.625 0.375 0.688
813 7.92 12.7 15.9 9.52 17.5
34 34 0.312 0.5 0.625 0.375 0.688
864 7.92 12.7 15.9 9.52 17.5
36 0.312 0.5 0.625 0.375 0.75
36
914 7.92 12.7 15.9 9.52 19
42 0.5 0.625 0.375 0.75
42
1067 12.7 15.9 9.52 19
LL THICKNESS
user's responsibility to determine its applicability to their purpose.
Schedule