Aluminum Conductor Alloy Reinforced ACAR
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Strong carrying capacity
Aluminum alloy core aluminum stranded wire is slightly stronger than copper wire and has better tensile properties.
Good electrical conductivity
The resistance of aluminum alloy core aluminum stranded wire is greater than that of copper wire, but its density is smaller than copper. Overall, its conductivity is better.
Long service life
Aluminum alloy core aluminum stranded wire adopts special anti-corrosion technology, which can be used for a long time in harsh conditions such as atmospheric environment and acid rain environment, and has a long life.
Light weight
Compared with copper wires, the density of aluminum alloy core aluminum stranded wires is smaller, and the weight of the wires is relatively lighter.
Introduction
Aluminum Conductor Alloy Reinforced(ACAR) cable has aluminum 1350-H19 wires stranded around a 6201-T81 aluminum alloy core concentrically.
Application
Aluminum Conductor Alloy Reinforced(ACAR) cable is an excellent conductor choice where current carrying capacity, higher strength and a lower conductor weight are critical to the line design.
Specification
ASTM B230 Specification for Aluminum 1350-H19 Wires for Electrical Purpose
ASTM B398 Specification for Aluminum Alloy 6201-T81 Wire for Electrical Purpose
ASTM B524 Specification for Concentric-Lay-Stranded Aluminum Conductors, Aluminum Alloy Reinforced(ACAR, 1350/6201)
| New Code | Stranding &Wire Diameter | OverallDiameter | Sectional Area | ApproximateWeight | BreakingLoad | DCResistance | |||
| Aluminum | Steel | Aluminum | Steel | Total | |||||
| mm | mm | mm | mm² | mm² | kg/km | KN | ohm/km | A | |
| 16 | 6/1.98 | 1/1.98 | 5.43 | 18.4 | 3.07 | 21.5 | 74.4 | 9.02 | 1.7934 |
| 25 | 6/2.47 | 1/2.4 | 7.41 | 28.8 | 4.8 | 33.6 | 116.2 | 13.96 | 1.1478 |
| 40 | 6/3.13 | 1/3.13 | 9.38 | 46.0 | 7.67 | 53.7 | 185.9 | 22.02 | 0.7174 |
| 63 | 6/3.92 | 1/3.92 | 11.80 | 72.5 | 12.1 | 84.6 | 292.8 | 34.68 | 0.4555 |
| 100 | 18/2.85 | 1/2.85 | 14.30 | 115.0 | 6.39 | 121.0 | 266.4 | 41.24 | 0.2880 |
| 125 | 18/3.19 | 1/6.19 | 16.00 | 144.0 | 7.99 | 152.0 | 458 | 51.23 | 0.2304 |
| 160 | 18/3.61 | 1/3.16 | 18.00 | 184.0 | 10.2 | 294.0 | 586.2 | 65.58 | 0.1800 |
| 160 | 26/3.00 | 7/2.34 | 19.00 | 184.0 | 30 | 214.0 | 742.3 | 88.52 | 0.1805 |
| 200 | 18/4.04 | 1/4.04 | 20.02 | 230.0 | 12.8 | 243.0 | 732.8 | 81.97 | 0.1440 |
| 200 | 26/3.36 | 7/2.61 | 21.30 | 230.0 | 37.5 | 268.0 | 927.9 | 110.64 | 0.1444 |
| 250 | 22/4.08 | 7/2.27 | 23.10 | 288.0 | 28.3 | 316.0 | 1013.5 | 117.09 | 0.1154 |
| 250 | 26/3.75 | 7/2.92 | 23.80 | 288.0 | 46.9 | 335.0 | 1159.8 | 138.31 | 0.1155 |
| 315 | 45/3.20 | 7/2.14 | 25.60 | 363.0 | 25.1 | 388.0 | 1196.5 | 136.28 | 0.0917 |
| 315 | 26/4.21 | 7/3.28 | 26.70 | 363.0 | 59 | 422.0 | 1461.4 | 171.9 | 0.0917 |
| 400 | 45/3.61 | 7/2.41 | 28.90 | 460.0 | 31.8 | 492.0 | 1519.4 | 172.1 | 0.0722 |
| 400 | 54/3.29 | 19/3.29 | 29.70 | 460.0 | 59.7 | 520.0 | 1738 | 201.46 | 0.0723 |
| 560 | 45/4.27 | 7/2.85 | 34.20 | 645.0 | 44.6 | 690.0 | 2127.2 | 240.93 | 0.0516 |
| 560 | 54/3.90 | 19/2.34 | 35.1 | 645.0 | 81.6 | 727.0 | 2420.9 | 283.21 | 0.0516 |
| 710 | 72/3.80 | 7/2.53 | 38.00 | 817.0 | 35.3 | 852.0 | 2533.4 | 281.32 | 0.0407 |
| 710 | 54/4.39 | 19/2.63 | 29.50 | 817.0 | 104 | 921.0 | 3069.4 | 359.06 | 0.0407 |
| 800 | 72/4.04 | 7/2.69 | 40.40 | 921.0 | 39.8 | 961.0 | 2854.6 | 316.98 | 0.0361 |
| 800 | 84/3.74 | 7/3.74 | 41.10 | 921.0 | 76.7 | 998.0 | 3145.1 | 356.03 | 0.0361 |
| 900 | 72/4.28 | 7/2.85 | 42.80 | 1036.0 | 44.8 | 1081.0 | 3211.4 | 356.6 | 0.0321 |
| 900 | 84/3.96 | 7/3.96 | 43.60 | 1036.0 | 86.3 | 1122.0 | 3538.3 | 400.53 | 0.0322 |
Component composition
Packaging: wooden barrel
Goods: finished product + wooden barrel packaging
Certification
Manufacturing process
There are nine steps in the low-voltage power cable production process:stranding machine; extrud; cooling; diameter measurement; Bearing winch; Set meter counter; testing; Spark test; packing
Payment Method
T/T; L/C ; Western Union
TAGS:
Bare Conductor
