| PN. | width×length* cm×m *approximated length |
fineness | mesh /inch |
calculated value | |||
|---|---|---|---|---|---|---|---|
| opening (mm) |
opening spacing (%) |
||||||
| diameter mm (Calculated value) |
dtex (d) |
Warp/Filling | |||||
 |
N-12 | 92×50 | 0.50 | 3300 (3000) |
12/12 | 1.62 | 58.3 |
| N-16 | 92×30 | 0.39 | 2000 (1800) |
16/16 | 1.20 | 57.3 | |
| N-20 | 105×30 | 0.29 | 1100 (1000) |
20/20 | 0.98 | 59.8 | |
| N-24 | 92×30 | 0.25 | 830 (750) |
24/24 | 0.81 | 58.3 | |
| N-32 | 92×30 | 0.25 | 830 (750) |
32/32 | 0.54 | 46.9 | |
| N-50 | 92×30 | 0.18 | 440 (400) |
50/50 | 0.32 | 40.9 | |
| N-60 | 92×50 | 0.16 | 330 (300) |
60/60 | 0.26 | 39.3 | |
| B-24 | 92×30 | 0.24 | 780 (700) |
24/24 | 0.82 | 59.5 | |
| B-42 | 92×30 | 0.18 | 440 (400) |
42/42 | 0.42 | 48.6 | |
| B-50 | 92×50 | 0.16 | 330 (300) |
50/50 | 0.35 | 47.4 | |
| B-60 | 92×50 | 0.16 | 330 (300) |
60/60 | 0.26 | 39.3 | |
 |
811 | 125×30 | 0.24 | 780 (700) |
45/46 | - | 32.5 |
| 130 | 122×30 | 0.18 | 440 (400) |
78/54 | - | 27.6 | |
| 9600 | 122×30 | 0.24 | 780 (700) |
41/42 | - | 36.9 | |
| 9600-6 | 106×30 | 0.22 | 670 (600) |
40/35 | - | 45.5 | |
*Test results are the values mesured on small quantity of specimens.
| MeasurementItem | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| thickness (mm) |
weight (g/m²) |
tensilestrength(N) | elongation(%) | tearstrength(N) | bursting strength (kPa) |
shrinkage (%) a:Warp b:Filling |
||||
| test width 5cm a:Warp b:Filling |
test width 3cm a:Warp b:Filling |
test width 5cm a:Warp b:Filling |
test width 3cm a:Warp b:Filling |
test width 10cm a:Warp b:Filling |
test width 5cm a:Warp b:Filling |
|||||
|
1.00 | 302 | a:1180 b:1080 |
a:707 b:684 |
a:28.0 b:27.7 |
a:28.0 b:27.3 |
a:393 b:383 |
a:40 b:43 |
1610 | a:12.8 b:12.2 |
| 0.80 | 266 | a:1050 b:1140 |
a:558 b:691 |
a:29.2 b:25.3 |
a:25.3 b:24.3 |
a:346 b:295 |
a:156 b:144 |
1510 | a:10.5 b:12.0 |
|
| 0.60 | 177 | a:669 b:659 |
a:425 b:396 |
a:23.0 b:27.0 |
a:23.7 b:26.3 |
a:212 b:172 |
a:95 b:98 |
737 | a:12.3 b:11.3 |
|
| 0.51 | 168 | a:617 b:575 |
a:382 b:359 |
a:22.5 b:22.2 |
a:23.3 b:22.7 |
a:143 b:124 |
a:102 b:103 |
720 | a:10.3 b:10.2 |
|
| 0.45 | 219 | a:462 b:493 |
a:285 b:302 |
a:19.0 b:19.5 |
a:18.5 b:19.1 |
a:69 b:57 |
a:67 b:71 |
625 | a:3.5 b:4.0 |
|
| 0.37 | 191 | a:407 b:479 |
a:262 b:306 |
a:16.7 b:25.0 |
a:18.7 b:25.7 |
a:39 b:38 |
a:40 b:41 |
564 | a:2.8 b:2.5 |
|
| 0.33 | 203 | a:381 b:367 |
a:233 b:224 |
a:18.0 b:23.7 |
a:18.0 b:23.3 |
a:11 b:15 |
a:12 b:16 |
482 | a:2.7 b:1.8 |
|
| 0.52 | 154 | a:498 b:505 |
a:322 b:325 |
a:21.8 b:27.7 |
a:20.7 b:28.0 |
a:139 b:124 |
a:92 b:98 |
585 | a:10.2 b:7.2 |
|
| 0.36 | 158 | a:291 b:301 |
a:194 b:192 |
a:17.2 b:17.2 |
a:18.3 b:18.8 |
a:39 b:34 |
a:35 b:35 |
446 | a:2.5 b:2.7 |
|
| 0.32 | 161 | a:298 b:313 |
a:198 b:196 |
a:17.8 b:23.2 |
a:17.7 b:23.7 |
a:10 b:13 |
a:10 b:13 |
448 | a:2.3 b:1.7 |
|
| 0.32 | 166 | a:299 b:273 |
a:183 b:171 |
a:15.3 b:20.7 |
a:15.7 b:20.3 |
a:13 b:13 |
a:15 b:14 |
401 | a:2.3 b:1.8 |
|
|
1.34 | 286 | a:875 b:810 |
a:515 b:491 |
a:25.7 b:24.7 |
a:25.3 b:25.7 |
a:237 b:239 |
a:172 b:134 |
1235 | a:12.3 b:11.7 |
| 1.34 | 261 | a:632 b:616 |
a:385 b:386 |
a:21.7 b:20.3 |
a:23.3 b:22.2 |
a:94 b:64 |
a:89 b:83 |
1130 | a:9.8 b:10.0 |
|
| 1.33 | 278 | a:829 b:868 |
a:498 b:527 |
a:29.4 b:27.2 |
a:27.8 b:25.9 |
a:244 b:236 |
a:161 b:141 |
1370 | a:12.3 b:13.0 |
|
| 0.78 | 211 | a:683 b:626 |
a:404 b:369 |
a:23.4 b:25.9 |
a:22.1 b:23.9 |
a:246 b:263 |
a:50 b:73 |
884 | a:11.2 b:11.0 |
|
*Test results are the values mesured on small quantity of specimens.
 |
| <Measuring method> | ||
| thickness | :The thickness when a pressure of 23.5kPa is applied. | |
| tensilestrength, elongation |
:test width | 5cm or 3cm |
| tensile speed | 20cm/min | |
| grip gap | 20cm | |
| tester | constant speed elongation type | |
| tearstrength | :Record the maximum load at the time of tear when a notch of 10cm (or 5cm) is formed in the specimen. | |
| bursting strength | :A 15cm angular specimen is sampled,and a Mullen bursting strength tester is employed. Pressure is applied via a rubber diaphragm, and the strength at which the rubber diaphragm breaks through the specimen "A"(kPa), and the strength to rupture the rubber diaphragm alone "B"(kPa) are measured, and the bursting strength (kPa) is calculated by the following formula. <Fomula> bursting strength = A - B |
|
| shrinkage | :The shrinkage after immersion in boiling water for 30 minutes. | |
