►Application
Used as bare overhead conductor for primary and secondary distribution. Designed utilizing a high-strength aluminum-alloy to achieve a high strength-to-weight ratio; affords good sag characteristics.
(1)AAAC conductors are extensively used for overhead distribution and transmission lines adjacent to ocean coastlines where there can be a problem of corrosion in the steel of an ACSR construction.
(3)AAAC referred to have higher strength but lower conductivity than pure aluminum Being lighter, alloy conductors can sometimes be used to advantage in replace of the more conventional ACSR
Standard 6201-T81 high strength aluminum conductors, conforming to ASTM Specification B-399, are concentric-lay- stranded, similar in construction and appearance to 1350 grade aluminum conductors. Standard 6201 alloy conductors are similar to other alloy conductors commercially known as Ardival, Aldrey or Almelec.They were developed to fill the need for an economical conductor for overhead applications requiring higher strength than that obtainable with 1350 grade aluminum conductors, but without a steel core. The DC resistance at 20°C of the 6201-T81 conductors and of the standard ACSRs of the same diameter are approximately the same. Conductors of the 6201-T81 alloys are harder and, therefore, have a greater resistance to abrasion than conductors of 1350-H19 grade aluminum.
►Features
Aluminum alloy conductors have a number of advantages over the use of the ACSR or AAC(all aluminum conductors).
Lower power losses than for equivalent single aluminum-layer ACSR conductors. (The inductive effect of the steel core in the ACSR is eliminated).
• Simpler fittings than those required for ACSR.
• Excellent corrosion resistance in environments conducive to galvanic corrosion in ACSR.
• Strength and sag approximately the same as for equivalent 6/1 and 26/7 ACSR conductors.
• Outside diameters are the same as for standard ACSR conductors, permitting interchangeability of fittings.
• Greater resistance to abrasion than that for 1350 wires in all-aluminum or ACSR conductors.
• High tensile strength as compared to AAC conductor.
• Higher conductivity as compared to ACSR conductor.
►Standard
ASTM B399,BS EN50183 ,BS 3242,DIM 48201,IEC 61089
►Parameter
AAAC |
|
|||||||
All Aluminium Alloy Conductors(AAAC) ASTM B 399 |
|
|||||||
AREA |
Stranding |
Wire Dia. |
Approx. overall diameter |
Weight |
Nominal Breaking Load |
Nom. DC resistance at 20 Deg. |
|
|
Nominal |
Actual |
|||||||
6 |
13.3 |
7 |
1.554 |
4.67 |
37 |
4.22 |
2.5199 |
|
4 |
21.15 |
7 |
1.961 |
5.89 |
58 |
6.71 |
1.5824 |
|
2 |
33.63 |
7 |
2.474 |
7.42 |
93 |
10.68 |
0.9942 |
|
1/0 |
53.48 |
7 |
3.119 |
9.36 |
148 |
16.97 |
0.6256 |
|
2/0 |
67.42 |
7 |
3.503 |
10.51 |
186 |
20.52 |
0.4959 |
|
3/0 |
85.03 |
7 |
3.932 |
11.8 |
234 |
25.86 |
0.3936 |
|
4/0 |
107.23 |
7 |
4.417 |
13.26 |
296 |
32.63 |
0.3119 |
|
250 |
126.66 |
19 |
2.913 |
14.57 |
349 |
38.93 |
0.2642 |
|
300 |
152.1 |
19 |
3.193 |
15.97 |
419 |
46.77 |
0.2199 |
|
350 |
177.35 |
19 |
3.447 |
17.24 |
489 |
52.25 |
0.1887 |
|
400 |
202.71 |
19 |
3.686 |
18.43 |
559 |
59.74 |
0.1650 |
|
450 |
228 |
19 |
3.909 |
19.55 |
629 |
67.19 |
0.1467 |
|
500 |
253.35 |
19 |
4.12 |
20.6 |
698 |
74.64 |
0.1321 |
|
550 |
278.6 |
37 |
3.096 |
21.67 |
768 |
83.80 |
0.1202 |
|
600 |
303.8 |
37 |
3.233 |
22.63 |
838 |
91.38 |
0.1102 |
|
650 |
329.25 |
37 |
3.366 |
23.56 |
908 |
97.94 |
0.1016 |
|
700 |
354.55 |
37 |
3.493 |
24.45 |
978 |
102.20 |
0.0944 |
|
750 |
380.2 |
37 |
3.617 |
25.32 |
1049 |
109.60 |
0.0880 |
|
800 |
405.15 |
37 |
3.734 |
26.14 |
1117 |
116.80 |
0.0826 |
|
900 |
456.16 |
37 |
3.962 |
27.73 |
1258 |
131.50 |
0.0733 |
|
1000 |
506.71 |
37 |
4.176 |
29.23 |
1399 |
146.10 |
0.0660 |
|
AAAC (Characteristics of A2 Conductors) IEC 61089 |
|
|||||||
Code number |
Area |
Number of wires |
Diameter |
Linear mass |
Rated strength |
D.C resistance |
|
|
Wire |
Cond |
|||||||
16 |
18.4 |
7 |
1.83 |
5.49 |
50.4 |
5.43 |
1.7896 |
|
25 |
28.8 |
7 |
2.29 |
6.86 |
78.7 |
8.49 |
1.1453 |
|
40 |
46 |
7 |
2.89 |
8.68 |
125.9 |
13.58 |
0.7158 |
|
63 |
72.5 |
7 |
3.63 |
10.9 |
198.3 |
21.39 |
0.4545 |
|
100 |
115 |
19 |
2.7 |
13.9 |
316.3 |
33.95 |
0.2877 |
|
125 |
144 |
19 |
3.1 |
15.5 |
395.4 |
42.44 |
0.2302 |
|
160 |
184 |
19 |
3.51 |
17.6 |
506.1 |
54.32 |
0.1798 |
|
200 |
230 |
19 |
3.93 |
19.6 |
632.7 |
67.91 |
0.1439 |
|
250 |
288 |
19 |
4.39 |
22 |
790.8 |
84.88 |
0.1151 |
|
315 |
363 |
37 |
3.53 |
24.7 |
998.9 |
106.95 |
0.0916 |
|
400 |
460 |
37 |
3.98 |
27.9 |
1268.4 |
135.81 |
0.0721 |
|
450 |
518 |
37 |
4.22 |
29.6 |
1426.9 |
152.79 |
0.0641 |
|
500 |
575 |
37 |
4.45 |
31.2 |
1585.5 |
169.76 |
0.0577 |
|
560 |
645 |
61 |
3.67 |
33 |
1778.4 |
190.14 |
0.0516 |
|
630 |
725 |
61 |
3.89 |
35 |
2000.7 |
213.9 |
0.0458 |
|
710 |
817 |
61 |
4.13 |
37.2 |
2254.8 |
241.07 |
0.0407 |
|
800 |
921 |
61 |
4.38 |
39.5 |
2540.6 |
271.62 |
0.0361 |
|
900 |
1036 |
91 |
3.81 |
41.8 |
2861.1 |
305.68 |
0.0321 |
|
1000 |
1151 |
91 |
4.01 |
44.1 |
3179 |
339.53 |
0.0289 |
|
1120 |
1289 |
91 |
4.25 |
46.7 |
3560.5 |
380.27 |
0.0258 |
|
1250 |
1439 |
91 |
4.49 |
49.4 |
3973.7 |
424.41 |
0.0231 |
|
AAAC (Characteristics of A3 Conductors) IEC 61089 |
|
|||||||
Code number |
Area |
Number of wires |
Diameter |
Linear mass |
Rated strength |
D.C resistance |
|
|
Wire |
Cond |
|||||||
16 |
18.6 |
7 |
1.84 |
5.52 |
50.8 |
6.04 |
1.7896 |
|
25 |
29 |
7 |
2.3 |
6.9 |
79.5 |
9.44 |
1.1453 |
|
40 |
46.5 |
7 |
2.91 |
8.72 |
127.1 |
15.1 |
0.7158 |
|
63 |
73.2 |
7 |
3.65 |
10.9 |
200.2 |
23.06 |
0.4545 |
|
100 |
116 |
19 |
2.79 |
14 |
319.3 |
37.76 |
0.2877 |
|
125 |
145 |
19 |
3.12 |
15.6 |
399.2 |
47.2 |
0.2302 |
|
160 |
186 |
19 |
3.53 |
17.6 |
511 |
58.56 |
0.1798 |
|
200 |
232 |
19 |
3.95 |
19.7 |
638.7 |
73.2 |
0.1439 |
|
250 |
290 |
19 |
4.41 |
22.1 |
798.4 |
91.5 |
0.1151 |
|
315 |
366 |
37 |
3.55 |
24.8 |
1008.4 |
115.29 |
0.0916 |
|
400 |
465 |
37 |
4 |
28 |
1280.5 |
146.4 |
0.0721 |
|
450 |
523 |
37 |
4.24 |
29.7 |
1440.5 |
164.7 |
0.0641 |
|
500 |
581 |
37 |
4.47 |
31.3 |
1600.6 |
183 |
0.0577 |
|
560 |
651 |
61 |
3.69 |
33.2 |
1795.3 |
204.96 |
0.0516 |
|
630 |
732 |
61 |
3.91 |
35.2 |
2019.8 |
230.58 |
0.0458 |
|
710 |
825 |
61 |
4.15 |
37.3 |
2276.2 |
259.86 |
0.0407 |
|
800 |
930 |
61 |
4.4 |
39.6 |
2564.8 |
292.8 |
0.0361 |
|
900 |
1046 |
91 |
3.83 |
42.1 |
2888.3 |
329.4 |
0.0321 |
|
1000 |
1162 |
91 |
4.03 |
44.4 |
3209.3 |
366 |
0.0289 |
|
1120 |
1301 |
91 |
4.27 |
46.9 |
3594.4 |
409.92 |
0.0258 |
|
All Aluminlum Alloy Conductors(AAAC) BS EN 50183 |
|
|||||||
Code Name |
Area |
No.of wires |
Diameter |
Mass per unit length |
Rated strength |
DC resistance |
|
|
Wire |
Cond. |
|||||||
BOX |
18.8 |
7 |
1.85 |
5.55 |
51.4 |
5.55 |
1.7480 |
|
ACACLA |
23.8 |
7 |
2.08 |
6.24 |
64.9 |
7.02 |
1.3828 |
|
ALMOND |
30.1 |
7 |
2.34 |
7.02 |
82.2 |
8.88 |
1.0926 |
|
CEDAR |
35.5 |
7 |
2.54 |
7.62 |
96.8 |
10.46 |
0.9273 |
|
DEODAR |
42.2 |
7 |
2.77 |
8.31 |
115.2 |
12.44 |
0.7797 |
|
FIR |
47.8 |
7 |
2.95 |
8.85 |
130.6 |
14.11 |
0.6875 |
|
HAZEL |
59.9 |
7 |
3.3 |
9.90 |
163.4 |
17.66 |
0.5494 |
|
PLNE |
71.6 |
7 |
3.61 |
10.8 |
195.6 |
21.14 |
0.4591 |
|
HOLLY |
84.1 |
7 |
3.91 |
11.7 |
229.5 |
24.79 |
0.3913 |
|
WILLOW |
89.7 |
7 |
4.04 |
12.1 |
245.0 |
26.47 |
0.3665 |
|
OAK |
118.9 |
7 |
4.65 |
14.0 |
324.5 |
35.07 |
0.2767 |
|
MULBERRY |
150.9 |
19 |
3.18 |
15.9 |
414.3 |
44.52 |
0.2192 |
|
ASH |
180.7 |
19 |
3.48 |
17.4 |
496.1 |
53.31 |
0.1830 |
|
ELM |
211 |
19 |
3.76 |
18.8 |
579.2 |
62.24 |
0.1568 |
|
POPLAR |
239.4 |
37 |
2.87 |
20.1 |
659.4 |
70.61 |
0.1387 |
|
SYCAMORE |
303.2 |
37 |
3.23 |
22.6 |
835.2 |
89.40 |
0.1095 |
|
UPAS |
362.1 |
37 |
3.53 |
24.7 |
997.5 |
106.82 |
0.0917 |
|
YEW |
479 |
37 |
4.06 |
28.4 |
1319.6 |
141.31 |
0.0693 |
|
TOTARA |
498.1 |
37 |
4.14 |
29.0 |
1372.1 |
146.93 |
0.0666 |
|
RUBUS |
586.9 |
61 |
3.5 |
31.5 |
1622.0 |
173.13 |
0.0567 |
|
SORBUS |
659.4 |
61 |
3.71 |
33.4 |
1822.5 |
194.53 |
0.0505 |
|
ARAUCARIA |
821.1 |
61 |
4.14 |
37.3 |
2269.4 |
242.24 |
0.0406 |
|
REDWOOD |
996.2 |
61 |
4.56 |
41.0 |
2753.2 |
293.88 |
0.0334 |
|
All Aluminium Alloy Conductors (AAAC) BS EN 50183 |
|||||||
Designation |
Area |
Stranding wire Dia. |
Overall Diameter |
Nominal Breaking Load |
Nominal DC Resistance at 20℃ |
Standard Weight |
|
mm2 |
No |
Φ |
mm |
kN |
Ohm/km |
kg/km |
|
ASTER 22 |
22 |
7 |
2 |
6 |
7.15 |
1.4989 |
60 |
ASTER 34.4 |
34.4 |
7 |
2.5 |
7.5 |
11.17 |
0.9593 |
93.8 |
ASTER 54.6 |
54.6 |
7 |
3.15 |
9.45 |
17.73 |
0.6042 |
148.9 |
ASTER 75.5 |
75.5 |
19 |
2.25 |
11.3 |
24.55 |
0.4388 |
207.4 |
ASTER 117 |
117 |
19 |
2.8 |
14 |
38.02 |
0.2833 |
321.2 |
ASTER 148 |
148.1 |
19 |
3.15 |
15.8 |
48.12 |
0.2239 |
406.5 |
ASTER 181.6 |
181.6 |
37 |
2.5 |
17.5 |
59.03 |
0.1831 |
500.3 |
ASTER 228 |
227.8 |
37 |
2.8 |
19.6 |
74.04 |
0.146 |
627.6 |
ASTER 288 |
288.3 |
37 |
3.15 |
22.1 |
93.71 |
0.1154 |
794.3 |
ASTER 366 |
366.2 |
37 |
3.55 |
24.9 |
115.36 |
0.0908 |
1008.9 |
ASTER 570 |
570.2 |
61 |
3.45 |
31.1 |
185.33 |
0.0585 |
1576 |
ASTER 851 |
850.7 |
91 |
3.45 |
38 |
276.47 |
0.0394 |
2360.7 |
ASTER 1144 |
1143.5 |
91 |
4 |
44 |
360.22 |
0.0293 |
3173.4 |
ASTER 1600 |
1595.9 |
127 |
4 |
52 |
502.72 |
0.021 |
4427.5 |
AAAC 6201- All Aluminium Alloy Conductor |
AS 1531 |
||||||
Code Name |
Strands/Wire Diameter |
Overall Diameter (Approx) |
Calculated Equivalent Aluminium Area |
Sectional Area |
Approx. |
Calculated Minimum Breaking Load |
D.C.Resistence |
mm |
mm |
mm2 |
mm2 |
kg/km |
kN |
Ω/km |
|
Agate |
7/1.75 |
5.25 |
14.3 |
16.84 |
46 |
4.71 |
1.972 |
Amethyst |
7/2.25 |
6.75 |
23.7 |
27.83 |
76 |
7.78 |
1.194 |
Diamond |
7/2.50 |
7.50 |
29.3 |
34.36 |
94 |
9.64 |
0.967 |
Dolomite |
7/2.75 |
8.25 |
35.4 |
41.58 |
114 |
11.6 |
0.799 |
Emerald |
7/3.00 |
9.00 |
42.2 |
49.48 |
136 |
13.9 |
0.671 |
Garnet |
7/3.75 |
11.3 |
65.8 |
77.28 |
211 |
21.7 |
0.43 |
Jade |
7/4.50 |
13.5 |
94.8 |
111.3 |
304 |
31.2 |
0.298 |
Jasper |
7/4.75 |
14.3 |
106 |
124.0 |
340 |
34.8 |
0.268 |
Opal |
19/3.25 |
16.3 |
134 |
157.6 |
433 |
44.2 |
0.212 |
Patronite |
19/3.50 |
17.5 |
155 |
182.80 |
502 |
51.3 |
0.183 |
Pearl |
19/3.75 |
18.8 |
178 |
209.8 |
577 |
58.8 |
0.159 |
Ruby |
37/3.00 |
21.0 |
221 |
261.60 |
720 |
73.5 |
0.128 |
Ruthenium |
37/3.25 |
22.8 |
260 |
307.00 |
845 |
86.1 |
0.109 |
Rutile |
19/4.75 |
23.8 |
285 |
336.7 |
925 |
94.4 |
0.09991 |
Sapphire |
37/3.75 |
26.3 |
345 |
408.50 |
1125 |
115 |
0.0819 |
Spinel |
61/3.25 |
29.3 |
427 |
506.10 |
1396 |
135 |
0.0662 |
Tantalum |
61/3.50 |
31.5 |
495 |
586.90 |
1620 |
156 |
0.0572 |
Topaz |
61/3.75 |
33.8 |
568 |
673.40 |
1858 |
179 |
0.0498 |
Zircon |
91/4.50 |
49.5 |
1220 |
1447 |
3997 |
384 |
0.0232 |
►High Quality Assurance
►Advantages
1, There is a professional design engineer team, before manufacturing, all of the product drawing will be approved by CSBTS (State Bureau of Quality Technical Supervision), and then the cable could be produced only if qualified.
2, To ensure the raw materials quality, all the copper are special-used for cable with the Inspection Certificates. The raw material is inspected when entering factory, and only the qualified material could be put in storage and used for production.
3, To ensure the product quality, there is a professional high level quality laboratory, most of the key technology date will be checked by high precision instrument
4, To ensure no problems before delivery, all the raw materials and cables are supervised and inspected again by the experts of inspection institution for inspection institution for cable. we could offer the international quality certification of ISO9001 and CE, and the inspection report of SGS, BV, etc, Quality Certificates.
►Company Overview
Founded in 1988, Henan Guowang (State-Grid) Cable Co., Ltd. is located in Xinzheng New Technology Industrial Zone, covering an area of 40,000 square meters and has own modern production workshops, hundreds of professional and technical employees, owning unique geographic location and optimum investment environment. Guowang focuses on the production and innovation of cables, our main products include: Aluminum series, Aerial insulated series, Low voltage power cable series, High voltage power cable and Rubber cable. We are obtaining vigorous development with an amazing speed in China and also becoming a very influential leader in cable area step by step.