Good quality All Aluminum Alloy aaac sorbus conductor for air plant aerial overhead

Port:	Qingdao port aaac sorbus conductor
Payment Terms:	L/C,T/T,Western Union,MoneyGram
Supply Ability:	3200 Kilometer/Kilometers per Month aaac sorbus conductor
Place of Origin:	Henan China
Brand Name:	Hongda AAC Conducotr
Model Number:	aaac sorbus conductor
Insulation Material:	no insulation
Type:	Low Voltage
Application:	Overhead
Conductor Material:	Aluminum
Jacket:	no sheath
Material:	Aluminum 1120
Mark:	CCC, IEC
Standard:	AWG, IEC, BS, ASTM
Using:	Overhead, power transmission lines
Rated voltage:	600/1000 Volts
Conductor Type:	All Aluminum AAC Conductor
Packing:	Wooden-steel Drum
Item:	Aluminum Cable
Conductor:	aaac sorbus conductor
Packaging Detail:	standard export wooden drums each end of cable shall be firmly and properly secured to drum for aaac sorbus conductor

High Quality Overhead line Bare AAC Conductor / All Aluminum Conductor

Product Description

All Aluminum Alloy Conductor (aaac) Applications
7 and 19 strand construction is suitable for bare overhead reticulation of medium spans, normally at low and medium voltages.
37 and 61 strand construction is suitable for transmission and subtransmission lines where homogeneous construction can reduce line losses and improve corrosion resistance in conductors with similar strength to ACSR types.

All Aluminum Alloy Conductor (aaac) Features
Moderate-strength all aluminum alloy conductor has good sag characteristics, can increase the transmission tower span. It also has excellent resistance to overload and fatigue properties. Compared with the same diameter ACSR conductor, the vertical load of AAAC reduced by 10% with the equal horizontal load. Wire surface damage resistance. It has great corrosion resistance than ACSR, avoid electrochemical corrosion between aluminum and galvanized steel wire, thus have long running life.

All Aluminum Alloy Conductor (aaac) Construction
Moderate-strength all aluminum alloy conductor concentric-lay stranded by aluminum wires of 230 ~ 265MPa tensile strength, similar in construction and appearance to 1350 grade aluminum conductors.

AAAC 1120 – All Aluminium Alloy Conductor – AS1531

Code Name	Strands/Wire Diameter mm	Overall Diameter (Approx) mm	Calculated Equivalent Aluminum Area mm2	Sectional Area mm2	Calculated Minimum Breaking Load kN	Approx. Mass kg/km	D.C. Resistance at 20 ℃ Ω/km
Argon	7/1.75	5.25	16	16.84	4	46	1.763
Boron	7/2.25	6.75	26.5	27.83	6.61	76	1.065
Chlorine	7/2.50	7.50	32.8	34.36	8.18	94	0.864
Chromium	7/2.75	8.25	39.7	41.58	9.91	114	0.713
Fluorine	7/3.00	9.00	47.2	49.48	11.8	135	0.599
Helium	7/3.75	11.3	73.7	77.28	17.6	211	0.383
Hydrogen	7/4.50	13.5	106	111.3	24.3	304	0.266
Iodine	7/4.75	14.3	118	124.0	27.1	340	0.239
Krypton	19/3.25	16.3	150	157.6	37.4	430	0.189
Lutetium	19/3.50	17.5	173	182.80	41.7	500	0.163
Neon	19/3.75	18.8	199	209.8	47.8	580	0.142
Nitrogen	37/3.00	21.0	248	261.60	62.2	720	0.114
Nobelium	37/3.25	22.8	291	307.00	72.8	850	0.0973
Oxygen	19/4.75	23.8	320	336.7	73.6	930	0.0884
Phosphorus	37/3.75	26.3	387	408.50	93.1	1100	0.0731
Selenium	61/3.25	29.3	478	506.10	114	1400	0.0592
Silicon	61/3.50	31.5	555	586.90	127	1620	0.0511
Sulfur	61/3.75	33.8	636	673.40	145	1860	0.0444
Xenon	91/4.50	49.5	1360	1447.00	300	3998	0.0207

1. AAAC / All Aluminum Alloy Conductor 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.

(2)The aluminum alloy conductors are used in replace of single-layer ACSR conductors to reduce power loss in overhead distribution and transmission lines,when replacing the aluminum conductor steel reinforced , the AAAC can save 5-8% of the construction cost.

(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.

2. AAAC / All Aluminum Alloy Conductor 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.

3. AAAC / All Aluminum Alloy Conductor Standard
ASTM B399,BS EN50183 ,BS 3242,DIM 48201,IEC 61089

AAAC / All Aluminum Alloy Conductors ASTM B 399

Area		Stranding	Approx. Dia.	Weight	Nominal Breaking Load	D.C. Resistance at 20℃	Standard Length
Nominal	Actual	Stranding	Approx. Dia.	Weight	Nominal Breaking Load	D.C. Resistance at 20℃	Standard Length
AWG or MCM	mm2	mm	mm	kg/km	kN	ohm/km	m±5%
6	13.30	7/1.554	4.67	37	4.22	2.5199	3500
4	21.15	1/1.961	5.89	58	6.71	1.5824	3000
2	33.63	7/2.474	7.42	93	10.68	0.9942	2500
1/0	53.48	7/3.119	9.36	148	16.97	0.6256	2000
2/0	67.42	7/3.503	10.51	186	20.52	0.4959	3500
3/0	85.03	7/3.932	11.80	234	25.86	0.3936	3000
4/0	107.23	7/4.417	13.26	296	32.63	0.3119	2000
250	126.66	19/2.913	14.57	349	38.93	0.2642	2000
300	152.10	19/63.193	15.97	419	46.77	0.2199	3000
350	177.35	19/3.447	17.24	489	52.25	0.1887	3000
400	202.71	19/3.686	18.43	559	59.74	0.1650	2500
450	228.00	19/3.909	19.55	629	67.19	0.1467	2000
500	253.35	19/4.120	20.60	698	74.64	0.1321	2000
550	278.60	37/3.096	21.67	768	83.80	0.1202	2000
600	303.80	37/3.233	22.63	838	91.38	0.1102	2000
650	329.25	37/3.366	23.56	908	97.94	0.1016	2000
700	354.55	37/3.493	24.45	978	102.20	0.0944	3500
750	380.20	37/3.617	25.32	1049	109.60	0.0880	3000
800	405.15	37/3.734	26.14	1117	116.80	0.0826	3000
900	456.16	37/3.962	27.73	1258	131.50	0.0733	3000
1000	506.71	37/4.176	26.23	1300	146.10	0.0660	2500

AAAC / Aluminum Alloy Conductors BS EN 50183

Area.	No. of Wires	Diameter		Weight	Rated Strength	D.C. Resistance at 20℃	Standard Length
Area.	No. of Wires	Wire	Cond	Weight	Rated Strength	D.C. Resistance at 20℃	Standard Length
mm2		mm	mm	kg/km	kN	ohm/km	m±5%
15.9	7	1.70	5.10	43.3	4.69	2.0701	3000
24.2	7	2.10	6.30	66.2	7.15	1.3566	3000
34.4	7	2.50	7.50	93.8	10.14	0.9572	3000
49.5	7	3.00	9.00	135.1	14.60	0.6647	3000
48.3	19	1.80	9.00	132.7	14.26	0.6841	3000
65.8	19	2.10	10.5	180.7	19.41	0.5026	2000
93.3	19	2.50	12.5	256.0	27.51	0.3546	2000
117.0	19	2.80	14.0	321.2	34.51	0.2827	2000
147.1	37	2.25	15.8	405.3	43.40	0.2256	2000
181.6	37	2.50	17.5	500.3	53.58	0.1827	2000
242.5	61	2.25	20.3	670.3	71.55	0.1373	2000
299.4	61	2.50	22.5	827.5	88.33	0.1112	2000
400.1	61	2.89	26.0	1105.9	118.04	0.0832	2000
499.8	61	3.23	29.1	1381.4	147.45	0.0666	2000
626.2	91	2.96	32.6	1737.7	184.73	0.0534	2000
802.1	91	3.35	36.9	2225.8	236.62	0.0417	2000
999.7	91	3.74	41.1	2774.3	294.91	0.0334	2000

All Aluminum Alloy Conductors (AAAC) BS EN 50183

Designation	Area	Stranding		Overall Dia.	Nominal Breaking Load	D.C. Resistance at 20℃	Standard Weight	Standard Length
	mm2	No	mm	mm	kN	ohm/km	kg/km	m±5%
ASTER 22	22.0	7	2.00	6.00	7.15	1.4989	60.0	4000
ASTER 34.4	34.4	7	2.50	7.50	11.17	0.9593	93.8	3000
ASTER 54.6	54.6	7	3.15	9.45	17.73	0.6042	148.9	3000
ASTER 75.5	75.5	19	2.25	11.3	24.55	0.4388	207.4	3000
ASTER 117	117.0	19	2.80	14.0	38.02	0.2833	321.2	2000
ASTER 148	148.1	19	3.15	15.8	48.12	0.2239	406.5	2000
ASTER 181.6	181.6	37	2.50	17.5	59.03	0.1831	500.3	2000
ASTER 228	227.8	37	2.80	19.6	74.04	0.1460	627.6	2000
ASTER 288	288.3	37	3.15	22.1	93.71	0.1154	794.3	2000
ASTER 366	366.2	37	3.55	24.9	115.36	0.0908	1008.9	2000
ASTER 570	570.2	61	3.45	31.1	185.33	0.0585	1576.0	2000
ASTER 851	850.7	91	3.45	38.0	276.47	0.0394	2360.7	2000
ASTER 1144	1143.5	91	4.00	44.0	360.22	0.0293	3173.4	2000
ASTER 1600	1595.9	127	4.00	52.0	502.72	0.0210	4427.5	2000

Characteristics of A2 Conductors IEC 61089

All Aluminum Alloy Conductors (AAAC)

Code Number	Area	No. of Wires	Diameter		Linear Mass	Rated Strength	D.C. Resistance at 20℃
Code Number	Area	No. of Wires	Wire	Cond	Linear Mass	Rated Strength	D.C. Resistance at 20℃
	mm2		mm	mm	kg/km	kN	ohm/km
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	46.0	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	2.70	13.9	316.3	33.95	0.2877
125	144	19	3.10	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	22.0	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	33.0	1778.4	190.14	0.0516
630	725	61	3.89	35.0	2000.7	213.90	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	3179.0	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

Characteristics of A3 Conductors IEC 61089

All Aluminum Alloy Conductors (AAAC)

Code Number	Area	No. of Wires	Diameter		Linear Mass	Rated Strength	D.C. Resistance at 20℃
Code Number	Area	No. of Wires	Wire	Cond	Linear Mass	Rated Strength	D.C. Resistance at 20℃
	mm2		mm	mm	kg/km	kN	ohm/km
16	18.6	7	1.84	5.52	50.8	6.04	1.7896
25	29.0	7	2.30	6.90	79.5	9.44	1.1453
40	46.5	7	2.91	8.72	127.1	15.10	0.7158
63	73.2	7	3.65	10.9	200.2	23.06	0.4545
100	116	19	2.79	14.0	319.3	37.76	0.2877
125	145	19	3.12	15.6	399.2	47.20	0.2302
160	186	19	3.53	17.6	511.0	58.56	0.1798
200	232	19	3.95	19.7	638.7	73.20	0.1439
250	290	19	4.41	22.1	798.4	91.50	0.1151
315	366	37	3.55	24.8	1008.4	115.29	0.0916
400	465	37	4.00	28.0	1280.5	146.40	0.0721
450	523	37	4.24	29.7	1440.5	164.70	0.0641
500	581	37	4.47	31.3	1600.6	183.00	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	4.40	39.6	2564.8	292.80	0.0361
900	1046	91	3.83	42.1	2888.3	329.40	0.0321
1000	1162	91	4.03	44.4	3209.3	366.00	0.0289
1120	1301	91	4.27	46.9	3594.4	409.92	0.0258