Custom AAAC AS 1513 All Aluminum Alloy Conductor Suppliers, Factory

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Custom AAAC AS 1513 All Aluminum Alloy Conductor Suppliers, Factory

Execution standard: AS 1513

Material: AAAC/1120 is made of aluminum-copper alloy, and AAAC/6201 uses 6201-T81 aluminum-magnesium-silicon alloy.

Product Advantage:
1. Â The AAAC/1120 conductor is composed of medium-strength aluminum-copper alloy. Â Compared with AAC conductors of the same cross-section, AAAC/1120 has 35% higher comprehensive breaking force and only 3% lower conductivity.
2. Â The AAAC/6201 conductor uses the highest tensile strength "aluminum-magnesium-silicon" alloy available. Â Its comprehensive breaking force is 85% higher than AAC of the same section, with conductivity only 10% lower.

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Product Description

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AAAC Standard: AS 1513

Type: AAAC/1120

Aluminum Alloy Conductor (AAAC) - AS 1513
Code Name	Sectional Area	Wire Diameter & Stranding		Diameter of Conductor	Nominal Breaking Load	Linear Mass	Maximum Resistance at 20℃
Code Name	mm²	mm	No.	mm	kN	kg/km	Ω/km
Chlorine	34.36	2.5	7	7.5	8.18	94.1	0.864
Chromium	41.58	2.75	7	8.25	9.91	113.9	0.713
Fluorine	49.48	3	7	9	11.8	135.5	0.599
Helium	77.31	3.75	7	11.25	17.6	211.7	0.383
Hydrogen	111.33	4.5	7	13.5	24.3	304.9	0.266
Iodine	124.04	4.75	7	14.25	27.1	339.7	0.239
Krypton	157.62	3.25	19	16.25	37.4	433.7	0.189
Lutetium	182.80	3.5	19	17.5	41.7	503.0	0.163
Neon	209.85	3.75	19	18.75	47.8	577.4	0.142
Nitrogen	261.54	3	37	21	62.2	721.4	0.114
Nobelium	306.94	3.25	37	22.75	72.8	846.6	0.0973
Oxygen	336.69	4.75	19	33.25	73.6	928.6	0.0884
Phosphorus	408.65	3.75	37	26.25	93.1	1127.1	0.0731
Selenium	506.04	3.25	61	29.25	114	1398.5	0.0592
Silicon	586.89	3.5	61	31.5	127	1621.9	0.0511
Sulfur	673.73	3.75	61	33.75	145	1861.9	0.0444

Note: The outermost layer is twisted to the right (Z).

Type: AAAC/6201

Aluminum Alloy Conductor (AAAC) - AS 1513
Code Name	Sectional Area	Wire Diameter & Stranding		Diameter of Conductor	Nominal Breaking Load	Linear Mass	Maximum Resistance at 20℃
Code Name	mm²	mm	No.	mm	kN	kg/km	Ω/km
Diamond	34.36	2.5	7	7.5	9.64	94.1	0.967
Dolomite	41.58	2.75	7	8.25	11.6	113.9	0.799
Emerald	49.48	3	7	9	13.9	135.5	0.671
Garnet	77.31	3.75	7	11.25	21.7	211.7	0.43
Jade	111.33	4.5	7	13.5	31.2	304.9	0.298
Jasper	124.04	4.75	7	14.25	34.8	339.7	0.268
Opal	157.62	3.25	19	16.25	44.2	433.7	0.212
Patronite	182.80	3.5	19	17.5	51.3	503.0	0.183
Pearl	209.85	3.75	19	18.75	58.8	577.4	0.159
Ruby	261.54	3	37	21	73.5	721.4	0.128
Ruthenium	306.94	3.25	37	22.75	86.1	846.6	0.109
Rutile	336.69	4.75	19	33.25	94.4	928.6	0.0991
Sapphire	408.65	3.75	37	26.25	115	1127.1	0.0819
Spinel	506.04	3.25	61	29.25	135	1398.5	0.0662
Tantalum	586.89	3.5	61	31.5	156	1621.9	0.0572
Topaz	673.73	3.75	61	33.75	179	1861.9	0.0498

Note: The outermost layer is twisted to the right (Z).

Frequently Asked Questions (FAQ)

What is the AS 1513 standard for AAAC conductors?

AS 1513 is an Australian standard that specifies the requirements for All Aluminium Alloy Conductors (AAAC) used for overhead power transmission and distribution. It covers material properties, dimensions, and mechanical strengths.

What is the difference between AAAC 1120 and AAAC 6201?

The primary difference lies in the alloy composition and strength. AAAC 6201 generally offers higher tensile strength and breaking loads compared to AAAC 1120, making it suitable for longer spans, though conductivity levels may vary.

What are the advantages of using AAAC over ACSR?

AAAC conductors are lighter, have a better strength-to-weight ratio, provide higher corrosion resistance (especially in coastal areas), and eliminate the magnetic losses found in the steel core of ACSR conductors.

Why is the outermost layer of the conductor twisted to the right (Z)?

The "Z" twist (right-hand lay) is a standard stranding direction that ensures structural integrity during installation and prevents unravelling when tensioned on standard line hardware.

Can these conductors be used in high-corrosion environments?

Yes, AAAC is highly recommended for coastal or industrial environments because the aluminum alloy forms a protective oxide layer that resists atmospheric corrosion much more effectively than steel-cored conductors.

How is the sectional area measured?

The sectional area is the nominal sum of the cross-sectional areas of the individual alloy wires that make up the conductor, measured in square millimeters (mm²).

Product Detail

Custom AAAC AS 1513 All Aluminum Alloy Conductor Suppliers, Factory

Product Description

AAAC Standard: AS 1513

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Product Detail

Custom AAAC AS 1513 All Aluminum Alloy Conductor Suppliers, Factory

Product Description

AAAC Standard: AS 1513

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