| Customization: | Available |
|---|---|
| Certification: | ISO |
| Surface: | Spiral |
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| Type | Explanation | Resistance at 20ºC(Q.mm2/m) |
Range(Dia.) | |
| T-PM001 | Conductivity of IACS AS.wire is 20.3%,class A. |
0.08480 | 1.25-5.50(mm) | |
| T-PM002 | Conductivity of IACS AS.wire is 23% | 0.07496 | 1.25-5.00(mm) | |
| T-PM003 | Conductivity of IACS AS.wire is 27% | 0.06386 | 2.50-5.00(mm) | |
| T-PM004 | Conductivity of IACS AS.wire is 30% | 0.05747 | 2.50-5.00(mm) | |
| T-PM005 | Conductivity of IACS AS.wire is 35% | 0.04926 | 2.50-5.00(mm) | |
| T-PM006 | Conductivity of IACS AS.wire is 40% | 0.04310 | 2.50-5.00(mm) | |
| Type | Thickness of Al. | Conductivity | Sectional Area of Al | Sectional Area of Stl | ||||||||
| T-PM001 | Standard | 20.3%IACS | 25% | 75% | ||||||||
| T-PM002 | Standard | 23%IACS | 30% | 70% | ||||||||
| T-PM003 | Medium | 27%IACS | 37% | 63% | ||||||||
| T-PM004 | Medium | 30%IACS | 43% | 57% | ||||||||
| T-PM005 | Thicker | 35%IACS | 52% | 48% | ||||||||
| T-PM006 | Thicker | 40%IACS | 62% | 38% | ||||||||
| Type | %IACS Conductivity (%IACS)e | |||||||||||
| Al. | St. | Min.conductivity when_calculates all sectional area of Al.and St. |
Standard .conductivity when do not calculate sectional area of st. | |||||||||
| T-PM001 | 61 | 9 | 20 | 15.3 | ||||||||
| T-PM002 | 23 | 18.3 | ||||||||||
| T-PM003 | 27 | 22.6 | ||||||||||
| T-PM004 | 30 | 26.2 | ||||||||||
| T-PM005 | 35 | 31.7 | ||||||||||
| T-PM006 | 40 | 37.8 | ||||||||||
| IACSConductivity (%IACS) |
Density (20ºCg/cm) |
Elastic Coefficient(GPA) |
Linear Expansive Coefficient at 1/ºC |
Temperature Coefficient of Resistance at 1/ºC |
||||||||
| 20.3 | 6.59 | 162 | 12.6×10-6 | 0.0036 | ||||||||
| 23 | 6.27 | 149 | 12.9×10-6 | 0.0036 | ||||||||
| 27 | 5.91 | 140 | 13.4×10-6 | 0.0036 | ||||||||
| 30 | 5.61 | 132 | 13.8×10-6 | 0.0038 | ||||||||
| 35 | 5.15 | 122 | 14.5×10-6 | 0.0039 | ||||||||
| 40 | 4.64 | 109 | 15.5×10-6 | 0.0040 | ||||||||
| Type | Nominal Dia. | Min.Tensile Strength Mpa |
Pulling Force When Stretch 1% Mpa |
|||
| more than (mm) | less than(mm) | |||||
| T-PM001A | 1.24 | 3.25 | 1340 | 1200 | ||
| 3.25 | 3.45 | 1310 | 1180 | |||
| 3.45 | 3.65 | 1270 | 1140 | |||
| 3.65 | 3.95 | 1250 | 1100 | |||
| 3.95 | 4.10 | 1210 | 1100 | |||
| 4.10 | 4.40 | 1180 | 1070 | |||
| 4.40 | 4.60 | 1140 | 1030 | |||
| 4.60 | 4.75 | 1100 | 1000 | |||
| 4.75 | 5.50 | 1070 | 1000 | |||
| T-PM001B | 1.24 | 5.50 | 1320 | 1100 | ||
| T-PM002 | 1.6 | 5.50 | 1220 | 980 | ||
| T-PM003 | 2.50 | 5.00 | 1080 | 800 | ||
| T-PM004 | 2.50 | 5.00 | 880 | 650 | ||
| T-PM005 | 2.50 | 5.50 | 810 | 590 | ||
| T-PM006 | 2.50 | 5.00 | 680 | 500 | ||
| Type | The AlProportion in Cross-section | Min:Thickness of Al.Layer (eccentricthickness) |
||||
| T-PM001 | 25% | MAT.is 8% of the nominal radius of wire when its nominal Dia.is less than 1.80mm. |
||||
| MATis 10% of the nominal radius of wire when its nominal Dia. is more than or same as 1.80mm. |
||||||
| T-PM002 | 30% | MATis 14%of the nominal radius of wire. | ||||
| T-PM003 | 37% | MATis 14% of the nominal radius of wire. | ||||
| T-PM004 | 43% | MATis 15% of the nominal radius of wire. | ||||
| T-PM005 | 52% | MATis 15% of the nominal radius of wire. | ||||
| T-PM006 | 62% | MAT.is 25% of the nominal radius of wire. | ||||
| Nominal Dia. mm | Starting Stress Mpa |
Starting Postion of Stretcher cm/cm |
|||||||
| more than | less than | ||||||||
| 1.24 | 2.50 | 81.4 | elongation is 0.05% | ||||||
| 2.50 | 3.30 | 162 | elongation is 0.10% | ||||||
| 3.30 | 5.50 | 244 | elongation is 0.15% | ||||||
| Nominal Dia.(mm) | Allowed Tolerance(mm) | ||||||||
| ≥2.67 | ±1.5%d | ||||||||
| <2.67 | ±0.04 | ||||||||
| Size AWG | Nominal Dia.(mm) |
Ultimate Tensile Strength(kg/mm²) |
Breaking Strength(KN) |
Calculated Weight(kg/km) |
Calculated Resistance at 20ºC |
Nominal Cross-section | ||||||||
| Ω/1000ft | Ω/km | Cmils | ln² mm² | |||||||||||
| 4 | 5.189 | 109.0 | 22.59 | 139.34 | 11.222 | 4.010 | 41,740 | 0.03278 21.15 | ||||||
| 5 | 4.620 | 116.0 | 19.07 | 110.50 | 1.541 | 5.056 | 33.09033,090 | 0.02599 16.77 | ||||||
| 6 | 4.114 | 123.0 | 16.04 | 87.62 | 1.943 | 6.375 | 26,240 | 0.02061 13.30 | ||||||
| 7 | 3.665 | 130.1 | 13.45 | 69.48 | 2.450 | 8.038 | 20,820 | 0.01635 10.55 | ||||||
| 8 | 3.264 | 137.1 | 11.24 | 55.11 | 3.089 | 10.135 | 16,510 | 0.01297 8.367 | ||||||
| 9 | 2.906 | 137.1 | 8.92 | 43.71 | 3.896 | 12.783 | 13,090 | 0.01028 6.632 | ||||||
| 10 | 2.588 | 137.1 | 7.07 | 34.66 | 4.912 | 16.116 | 10,380 | 0.008155 5.261 | ||||||
| 11 | 2.304 | 137.1 | 5.60 | 27.49 | 6.194 | 20.322 | 8,230 | 0.006460 4.168 | ||||||
| 12 | 2.052 | 137.1 | 4.45 | 21.80 | 7.811 | 25.627 | 6,530 | 0.005130 3.310 | ||||||
| Nominal Dia. (mm) | Pulling Force When lts Elongation Is 1% |
Tensile Strength Mpa | Elongation % |
| 1.956-3.274 | 1206 | 1344 | 1.5 |
| 3.275-3.477 | 1172 | 1310 | 1.5 |
| 3.478-3.665 | 1137 | 1275 | 1.5 |
| 3.666-3.934 | 1103 | 1241 | 1.5 |
| 3.935-4.115 | 1103 | 1260 | 1.5 |
| 4.116-4.392 | 1068 | 1172 | 1.5 |
| 4.393-4.620 | 1034 | 1137 | 1.5 |
| 4.621-4.775 | 1000 | 1103 | 1.5 |
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