Aluminum Alloy Conductor Steel Reinforced (AACSR)

Model NO.: aacsr

Wire Core Material: Aluminum

Certification: ISO, CE, SABS

Model: Aacsr

Brand: Jiapu

Capacity: 2000ton/Month

Min.Order Qty: 1km

Delivery Length: Accord with The Request

Certificate: SABS, ISO9001-2008, CQC Certificate, CE , SGS

Port of Loading: Tianjin, Qingdao, Ningbo, Shanghai, Xiamen

Payment Term: L/C, D/P, D/a ,T/T, M/T, D/D, O/a, C.W.O, C.O.D, C

Trademark: Jiapu

Transport Package: Drum

Origin: Zhengzhou

Model NO.: aacsr

Wire Core Material: Aluminum

Certification: ISO, CE, SABS

Model: Aacsr

Brand: Jiapu

Capacity: 2000ton/Month

Min.Order Qty: 1km

Delivery Length: Accord with The Request

Certificate: SABS, ISO9001-2008, CQC Certificate, CE , SGS

Port of Loading: Tianjin, Qingdao, Ningbo, Shanghai, Xiamen

Payment Term: L/C, D/P, D/a ,T/T, M/T, D/D, O/a, C.W.O, C.O.D, C

Trademark: Jiapu

Transport Package: Drum

Origin: Zhengzhou

Application
The AACSR conductors are also suitable for use in all practical transmission towers, and other structures. Application range from extra high voltage(EHV) transmission lines to sub-service spans at distribution or utilization voltages on private premises as like as ACSR.
AACSR(Aluminum Alloy Conductor Steel Reinforced) has also a long service record because of its economy, dependability, and strength to weight ratio. The combined light weight and high conductivity of aluminum with strength of the steel cores enable higher tensions, less sag, and longer spans than any alternative as like as ACSR.
Compared with ACSR, the tensile strength of aluminum conductor is more strong.

Construction
Aluminum Alloy 6201 wires and the steel cores are concentrically stranded and wrapped helically around a central wire. The additional corrosion protection is available through the application of grease to the cores or infusion of the complete cable with grease.

Standard of Production

ASTM B711 Standard, refer to the following specification
B 398 Aluminum Alloy 6201-T81 Wire for Electrical Purpose
B 711 Concentric-lay-stranded Conductor, Aluminum Alloy Steel Reinforced(AACSR)
B 341 Aluminum Coated Steel Core Wire for Aluminum Conductor Steel Reinforced(ACSR/AW)
B 498 Zinc-coated Steel Core Wire for Aluminum Conductor Steel Reinforced (ACSR/AZ)
B 500 Zinc Coated and Aluminum Coated Stranded Steel Core for Aluminum Conductor Steel
Reinforced (ACSR)
2. DIN 48206 Standard
3. IEC 61089 Standard
4. Other International Standard

Nominal Cross Section	Cross Section of Steel Wires	Cross Section of Alloy Wires	Number of Alloy Wires	Diameter of Alloy Wires	Number of Steel Wires	Diameter of Steel Wires	Overall Diameter	Linear Mass	Rated Tensile Strength	Max.D.C. Resistance Â
mm2	mm2	mm2	-Â	mm	Â -	mm	mm	kg/km	daN	Ω/km
16/2.5	15.27	2.54	6	1.8	1	1.8	5.4	62	748	2.18
25/4	23.86	3.98	6	2.25	1	2.25	6.8	97	1171	1.3952
35/6	34.35	5.73	6	2.7	1	2.7	8.1	140	1685	0.9689
44/32	43.98	31.67	14	2	7	2.4	11.2	373	5027	0.7625
50/8	48.25	8.04	6	3.2	1	3.2	9.6	196	2366	0.6898
50/30	51.17	29.85	12	2.33	7	2.33	11.7	378	5024	0.6547
70/12	69.89	11.4	26	1.85	7	1.44	11.7	284	3399	0.4791
95/15	94.39	15.33	26	2.15	7	1.67	13.6	383	4582	0.3547
95/55	96.51	56.3	12	3.2	7	3.2	16	714	9475	0.3471
105/75	105.67	75.55	14	3.1	19	2.25	17.5	899	12014	0.3174
120/20	121.57	19.85	26	2.44	7	1.9	15.5	494	5914	0.2754
120/70	122.15	71.25	12	3.6	7	3.6	18	904	11912	0.2742
125/30	127.92	29.85	30	2.33	7	2.33	16.3	590	7280	0.2621
150/25	148.86	24.25	26	2.7	7	2.1	17.1	604	7236	0.2249
170/40	171.77	40.08	30	2.7	7	2.7	18.9	794	9775	0.1952
185/30	183.78	29.85	26	3	7	2.33	19	744	8922	0.1822
210/35	209.1	34.09	26	3.2	7	2.49	20.3	848	10167	0.1601
210/50	212.06	49.48	30	3	7	3	21	979	12068	0.1581
230/30	230.91	29.85	24	3.5	7	2.33	21	674	10306	0.1449
240/40	243.05	39.49	26	3.45	7	2.68	21.8	985	11802	0.1378
265/35	263.66	34.09	24	3.74	7	2.49	22.4	998	11771	0.1269
300/50	304.26	49.48	26	3.86	7	3	24.5	1233	14779	0.1101
305/40	304.62	39.49	54	2.68	7	2.68	24.1	1155	13612	0.1101
340/30	339.29	29.85	48	3	7	2.33	25	1174	13494	0.0988
380/50	381.7	49.48	54	3	7	3	27	1448	17056	0.0879
385/35	386.04	34.09	48	3.2	7	2.49	26.7	1336	15369	0.0868
435/55	434.29	56.3	54	3.2	7	3.2	28.8	1647	19406	0.0772
450/40	448.71	39.49	48	3.45	7	2.68	28.7	1553	17848	0.0747
490/65	490.28	63.55	54	3.4	7	3.4	30.6	1860	21907	0.0684
550/70	549.65	71.25	54	3.6	7	3.6	32.4	2085	24560	0.061
560/50	561.7	49.48	48	3.86	7	3	32.2	1943	22348	0.0597
680/85	678.58	85.95	54	4	19	2.4	36	2564	30084	0.0494

Nominal Cross Section	Cross Section of Steel Wires	Cross Section of Alloy Wires	Number of Alloy Wires	Diameter of Alloy Wires	Number of Steel Wires	Diameter of Steel Wires	Overall Diameter	Linear Mass	Rated Tensile Strength	Max.D.C. Resistance Â
mm2	mm2	mm2	-Â	mm	Â -	mm	mm	kg/km	daN	Ω/km
16/2.5	15.27	2.54	6	1.8	1	1.8	5.4	62	748	2.18
25/4	23.86	3.98	6	2.25	1	2.25	6.8	97	1171	1.3952
35/6	34.35	5.73	6	2.7	1	2.7	8.1	140	1685	0.9689
44/32	43.98	31.67	14	2	7	2.4	11.2	373	5027	0.7625
50/8	48.25	8.04	6	3.2	1	3.2	9.6	196	2366	0.6898
50/30	51.17	29.85	12	2.33	7	2.33	11.7	378	5024	0.6547
70/12	69.89	11.4	26	1.85	7	1.44	11.7	284	3399	0.4791
95/15	94.39	15.33	26	2.15	7	1.67	13.6	383	4582	0.3547
95/55	96.51	56.3	12	3.2	7	3.2	16	714	9475	0.3471
105/75	105.67	75.55	14	3.1	19	2.25	17.5	899	12014	0.3174
120/20	121.57	19.85	26	2.44	7	1.9	15.5	494	5914	0.2754
120/70	122.15	71.25	12	3.6	7	3.6	18	904	11912	0.2742
125/30	127.92	29.85	30	2.33	7	2.33	16.3	590	7280	0.2621
150/25	148.86	24.25	26	2.7	7	2.1	17.1	604	7236	0.2249
170/40	171.77	40.08	30	2.7	7	2.7	18.9	794	9775	0.1952
185/30	183.78	29.85	26	3	7	2.33	19	744	8922	0.1822
210/35	209.1	34.09	26	3.2	7	2.49	20.3	848	10167	0.1601
210/50	212.06	49.48	30	3	7	3	21	979	12068	0.1581
230/30	230.91	29.85	24	3.5	7	2.33	21	674	10306	0.1449
240/40	243.05	39.49	26	3.45	7	2.68	21.8	985	11802	0.1378
265/35	263.66	34.09	24	3.74	7	2.49	22.4	998	11771	0.1269
300/50	304.26	49.48	26	3.86	7	3	24.5	1233	14779	0.1101
305/40	304.62	39.49	54	2.68	7	2.68	24.1	1155	13612	0.1101
340/30	339.29	29.85	48	3	7	2.33	25	1174	13494	0.0988
380/50	381.7	49.48	54	3	7	3	27	1448	17056	0.0879
385/35	386.04	34.09	48	3.2	7	2.49	26.7	1336	15369	0.0868
435/55	434.29	56.3	54	3.2	7	3.2	28.8	1647	19406	0.0772
450/40	448.71	39.49	48	3.45	7	2.68	28.7	1553	17848	0.0747
490/65	490.28	63.55	54	3.4	7	3.4	30.6	1860	21907	0.0684
550/70	549.65	71.25	54	3.6	7	3.6	32.4	2085	24560	0.061
560/50	561.7	49.48	48	3.86	7	3	32.2	1943	22348	0.0597
680/85	678.58	85.95	54	4	19	2.4	36	2564	30084	0.0494

A weak electrical cable is a cable used for security communications, electrical equipment, and related weak electrical transmissions.

Wire and cable refers to materials used in power, communications, and related transmission applications. There are no strict boundaries between "wires" and "cables." Generally, a product with a small number of cores, a small product diameter, and a simple structure is called a wire, a non-insulated wire is called a bare wire, and the other is called a cable; a conductor having a large cross-sectional area (greater than 6 square millimeters) is called a large wire. Small (less than or equal to 6 square millimeters) is called a small wire, and insulated wire is also called a wire.

Wire and cable mainly includes bare wires, electromagnetic wires and insulated wires for electrical appliances, power cables, communication cables and optical cables.

composition

It consists of an inner conductor, an insulation, an outer conductor and a sheath from the inside out;

Inner conductor: Since the attenuation is mainly caused by the resistance of the inner conductor, the inner conductor has a great influence on the signal transmission.

Insulation: affects attenuation, resistance, return loss and other properties

Outer conductor: return conductor, shielding

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