Aluminum Conductor Cable

 Aluminum Conductor Cable

Product Detail

Basic Info

Model No:AAC, AAAC, ACSR, AACSR, ACAR
Toepassing: Boven het hoofd
Voltage: Laag-en middenspanning Kabel
Stroom: DC & AC
Certificaat: ISO , CE

Extra Informatie.

Handelsmerk:jiapu
Verpakking:Drum
Standaard:Any Standard
Oorsprong:Henan China
Gs-Code:8544492100
Productiecapaciteit:2000ton/Month

Beschrijving

IEC61089, BS215 part2, ASTM B232, DIN48204, BS EN50182, JIS C3110 standard

ISO 9001 and ISO 14001. CE, SONCAP certificate

AAC, AAAC, ACSR, AACSR&ACAR conductor widely used in power transmission lines with various voltage levels.

Since they have such good characteristics as simple structure, convenient installation and maintenance, low cost for the line, large transmission capacity and are also suitable for laying across rivers and valleys where special geographical teatures exist.
1. Specification:
(1) all aluminium conductor (AAC)
(2) all aluminimum alloy conductor(AAAC)(3) aluminum conductor steel reinforced (ACSR)(4) anti-corrosion type ACSR(5) aluminimum conductor aluminimum clad steel reinforced(ACSR/AW)
(6)rear earth aluminimum conductor steel reinforced(ACSR/RE)
(7)aluminimum conductor aluminimum alloy reinforced(ACAR)
2. Elative manufacturing standards: IEC83, IEC1089, 31, B232, BS215, DIN48204.

1). Standard: IEC61089, BS215 part2, ASTM B232, DIN48204, BS EN50182.
2). Specification: ACSR is composed by bare concentric-lay-stranded galvanized steel wire(s) with aluminum wires surrounded by one or more layers of helically. Greased ACSR can also be supplied.
3). Application: ACSR is widely used in overhead electric power transmission and distribution lines with various voltage levels.

All Aluminum Conductor(AAC)& Aluminum Conductor Steel Reinforced(ACSR))for ASTM

(AAC, ACCR, AAAC, ACSR) Generally Confirming to IS 398 (Part-I, II, IV), IEC-228
(AAAC) Conductor as per ASTM-B-399-1992
(AAAC) Conductor as per BS-3242-1970
(AAAC) Conductor IS: 398-IV-1994
(ACSR) as per ASTM-B-233-1992
(AAC) as per BS-215-1-1970
(AAC) as per IS-398-1: 1976
(AAC) as per ASTM-B-231-1990
(ACSR) as per IS: 398-II: 1976 & IS: 398-V: 1992
(ACSR) BS-215-II-1970
(AACSR) as per IEC-1089-1191
AAC(All aluminum conductor) are suited for overhead power line.
We can supply this conductor according to different recognized standards, such as IEC61089, BS215, BS EN 50182: 2001, ASTM B231, CSA C49, DIN480201, JIS C3109, customer special specification also can be satisfied.
ACSR or ACSR cable or ACSR conductor used for Overhead electrical distribution and transmission lines for distributing power.
Applications:
Used as bare overhead transmission cable and as primary and secondary distribution cable. ACSR offers optimal strength for line design. Variable steel core stranding enables desired strength to be achieved without sacrificing ampacity.
Construction:
Aluminum alloy 1350-H-19 wires, concentrically stranded about a steel core. Core wire for ACSR is available with class A, B, or C galvanizing; ""aluminized"" aluminum coated (AZ); Or aluminum-clad (AW). Additional corrosion protection is available through the application of grease to the corrosion or infusion of the complete cable with grease.
Specifications:
ACSR bare conductor meets or exceeds the following ASTM specifications:
B-230 Aluminum Wire, 1350-H19 for Electrical Purposes
B-231 Aluminum Conductors, Concentric-Lay-Stranded
B-232 Aluminum Conductors, Concentric-Lay-Stranded, Coated Steel Reinforced (ACSR)
B-341 Aluminum-clad Steel Core Wire for Aluminum Conductors, Steel Reinforced (ACSR/AW)
B-498 Zinc-Coated Steel Core Wire for Aluminum Conductors, Steel Reinforced (ACSR/AZ)
B-500 Zinc Coated and Aluminum Coated Stranded Steel Core for Aluminum Conductors, Steel Reinforced (ACSR)
Notes:
Resistance is calculated using ASTM standard increments of stranding and metal conductivity of 61.2% IACS for EC (1350) and 8% IACS for steel. AC (60Hz) resistance includes current dependent hysteresis loss factor for 1 and 3 layer constructions.
Current ratings are based on 75oC conductor temperature, 25oC ambient, 2ft/s wind, 96/watts/sq. Ft sun, 0.5 coefficients of emissivity and absorption.

Packing:
Standard export wooden drums

AAC with IEC61089 Standard
Cross Section Number of Stranding Wires Diameter Linear Mass Rated Strength Max.D.C. Resistance
Wires Conductor
mm 2 mm mm kg/km kN Ω/km
10 7 1.35 4.05 27.4 1.95 2.8633
16 7 1.71 5.12 43.8 3.04 1.7896
25 7 2.13 6.4 68.4 4.5 1.1453
40 7 2.7 8.09 109.4 6.8 0.7158
63 7 3.39 10.2 172.3 10.39 0.4545
100 19 2.59 12.9 274.8 17 0.2877
125 19 2.89 14.5 343.6 21.25 0.2302
160 19 3.27 16.4 439.8 26.4 0.1798
200 19 3.66 18.3 549.7 32 0.1439
250 19 4.09 20.5 687.1 40 0.1151
315 37 3.29 23 867.9 51.97 0.0916
400 37 3.71 26 1102 64 0.0721
450 37 3.94 27.5 1239.8 72 0.0641
500 37 4.15 29 1377.6 80 0.0577
560 37 4.39 30.7 1542.9 89.6 0.0515
630 61 3.63 32.6 1738.3 100.08 0.0458
710 61 3.85 34.6 1959.1 113.6 0.0407
800 61 4.09 36.8 2207.4 128 0.0361
900 61 4.33 39 2483.3 144 0.0321
1000 61 4.57 41.1 2759.2 160 0.0289
1120 91 3.96 43.5 3093.5 179.2 0.0258
1250 91 4.18 46 3452.6 200 0.0231
1400 91 4.43 48.7 3866.9 224 0.0207
1500 91 4.58 50.4 4143.1 240 0.0193
AAC with DIN48201 Standard
Code Number Calculated Cross Section No./Dia.of Stranding Wire Overall Diameter Linear Mass Calculated Breaking Load Max.D.C. Resistance
mm² mm² mm mm kg/km daN Ω/km
16 15.89 7/1.70 5.1 44 290 1.8018
25 24.25 7/2.10 6.3 67 425 1.1808
35 34.36 7/2.50 7.5 94 585 0.8332
50 49.48 7/3.00 9 135 810 0.5786
50 48.36 19/1.80 9 133 860 0.595
70 65.82 19/2.10 10.5 181 1150 0.4371
95 93.27 19/2.50 12.5 256 1595 0.3084
120 117 19/2.80 14 322 1910 0.2459
150 147.1 37/2.25 15.2 406 2570 0.196
185 181.6 37/2.50 17.5 501 3105 0.1587
240 242.54 61/2.25 20.2 670 4015 0.1191
300 299.43 61/2.50 22.5 827 4850 0.0965
400 400.14 61/2.89 26 1105 6190 0.0722
500 499.83 61/3.23 29.1 1381 7600 0.0578
625 626.2 91/2.96 32.6 1733 9690 0.04625
800 802.1 91/3.35 36.8 2219 12055 0.0361
1000 999.71 91/3.74 41.1 2766 14845 0.029
AAC with BS 215 Standard
Code Name Nominal Cross Section No./Dia.of Stranding Wires Overall Diameter Approx. Weight Max.D.C Resistance of Conductor Calculated Breaking Load Final Modulus of Elasticity Coefficient of Linear Expansion
mm 2 No./mm mm kg/km ohm/km daN hbar
Midge 22 7/2.06 6.18 64 1.227 399 5900 23 x 10 -6
Aphis 25 3/3.35 7.2 73 1.081 411 5900 23 x 10 -6
Gnat 25 7/2.21 6.6 73 1.066 459 5900 23 x 10 -6
Weevil 30 3/3.66 7.9 86 0.9082 486 5900 23 x 10 -6
Mosquito 35 7/2.59 7.8 101 0.7762 603 5900 23 x 10 -6
Ladybird 40 7/2.79 8.4 117 0.6689 687 5900 23 x 10 -6
Ant 50 7/3.10 9.3 145 0.5419 828 5900 23 x 10 -6
Fly 60 7/3.40 10.2 174 0.4505 990 5900 23 x 10 -6
Bluebottle 70 7/3.66 11 202 0.3881 1134 5900 23 x 10 -6
Earwing 75 7/3.78 11.4 215 0.3644 1194 5900 23 x 10 -6
Grasshopper 80 7/3.91 11.7 230 0.3406 1278 5900 23 x 10 -6
Clegg 90 7/4.17 12.5 262 0.2994 1453 5900 23 x 10 -6
Wasp 100 7/4.39 13.17 290 0.2702 1600 5900 23 x 10 -6
Beetle 100 19/2.67 13.4 293 0.2704 1742 5600 23 x 10 -6
Bee 125 7/4.90 14.7 361 0.2169 1944 5900 23 x 10 -6
Cricket 150 7/5.36 16.1 432 0.1818 2385 5900 23 x 10 -6
Hornet 150 19/3.25 16.25 434 0.1825 2570 5600 23 x 10 -6
Caterpillar 175 19/3.53 17.7 512 0.1547 2863 5600 23 x 10 -6
Chafer 200 19/3.78 18.9 587 0.1349 3240 5600 23 x 10 -6
Spider 225 19/3.99 20 652 0.1211 3601 5600 23 x 10 -6
Cockroach 250 19/4.22 21.1 731 0.1083 4040 5600 23 x 10 -6
Butterfly 300 19/4.65 23.25 888 0.08916 4875 5600 23 x 10 -6
Moth 350 19/5.00 25 1027 0.07711 5637 5600 23 x 10 -6
Drone 350 37/3.58 25.1 1029 0.07741 5745 5600 23 x 10 -6
Locust 400 19/5.36 26.8 1179 0.0671 6473 5600 23 x 10 -6
Centipede 400 37/3.78 26.46 1145 0.06944 6310 5600 23 x 10 -6
Maybug 450 37/4.09 28.6 1342 0.05931 7401 5600 23 x 10 -6
Scorpion 500 37/4.27 29.9 1460 0.05441 7998 5600 23 x 10 -6
Cicada 600 37/4.65 32.6 1733 0.04588 9495 5600 23 x 10 -6
Tarantula 750 37/5.23 36.6 2191 0.03627 12010 5600 23 x 10 -6
AAC with CSA C49 Standard
Code Name KCMIL or AWG Cross Section of Aluminum Size Total Mass Rated Tensile Strength Max.D.C. Resistance
No.of Wires Dia.of Wires Dia.of Conductor
mm² mm mm kg/km kN Ω/km
Anemone 874.5 443.12 37 3.9 27.3 1223 72.9 0.06509
Cockscomb 900 456.04 37 3.96 27.72 1259 75.2 0.06324
927.2 469.82 37 4.02 28.14 1297 77.5 0.06139
Magnolia 954 483.4 37 4.08 28.56 1334 79.8 0.05966
Hawkweed 1000 506.71 37 4.18 29.26 1399 83.8 0.05692
Bluebell 1033.5 523.68 37 4.25 29.75 1445 86.6 0.05507
1100 557.38 61 3.41 30.69 1541 94.7 0.05182
Marigold 1113 563.97 61 3.43 30.87 1559 95.8 0.05121
Hawthorn 1192.5 604.25 61 3.55 31.95 1670 103 0.0478
1200 608.05 61 3.56 32.04 1681 103 0.0475
Narcissus 1272 644.54 61 3.67 33.03 1782 110 0.04481
1300 658.72 61 3.71 33.39 1821 112 0.04385
Columbine 1351.5 684.82 61 3.78 34.02 1893 113 0.04218
1400 709.39 61 3.85 34.65 1961 117 0.04072
Carnation 1431 725.1 61 3.89 35.01 2004 120 0.03983
1500 760.07 61 3.98 35.82 2101 125 0.038
Gladiolus 1510.5 762.72 61 3.99 35.91 2110 123 0.0379
Coreopsis 1590 805.67 61 4.1 36.9 2227 133 0.03585
1600 810.74 61 4.11 36.99 2241 134 0.03563
1700 861.41 61 4.24 38.16 2381 142 0.03353
1800 912.08 91 3.57 39.27 2524 155 0.0317
Cowslip 2000 1013.42 91 3.77 41.47 2804 168 0.02853
Sagebrush 2250 1140.1 91 3.99 43.89 3155 188 0.02536
2435.6 1234.14 91 4.16 45.76 3415 204 0.02343
Lupine 2500 1266.78 91 4.21 46.31 3505 209 0.02283
Bitterroo 2750 1393.45 91 4.42 48.62 3856 230 0.02075
3000 1520.13 91 4.61 50.71 4207 251 0.01902
3007.7 1524.03 91 4.62 50.82 4217 252 0.01897
3500 1773.49 91 4.98 54.78 4908 292 0.0163
3640 1844.42 91 5.08 55.88 5104 304 0.01568

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