1). ABC Cable use the following conductors:
All Aluminum Conductors AAC | ASTM B 231 |
All Aluminum Conductors AAC | BS 215 Part 1 |
All Aluminum Conductors AAC | BS EN 50182 |
All Aluminum Conductors AAC | IEC 61089 |
All Aluminum Conductors AAC | DIN 48201 |
Aluminum Conductor Steel Reinforce ACSR | ASTM B 232 |
Aluminum Conductor Steel Reinforce ACSR | BS 215 Part 2 |
Aluminum Conductor Steel Reinforce ACSR | BS EN 50182 |
Aluminum Conductor Steel Reinforce ACSR | IEC 61089 |
Aluminum Conductor Steel Reinforce ACSR | DIN 48204 |
Bare All Aluminum Alloy Conductor (Bare AAAC) | ASTM B 399 |
Bare All Aluminum Alloy Conductor (Bare AAAC) | BS 3242 |
Bare All Aluminum Alloy Conductor (Bare AAAC) | DIN 48201 |
Bare All Aluminum Alloy Conductor (Bare AAAC) | AS 1531 Part 2 |
Aerial Bundle Cable (ABC) |
2. Product Performance (our products meet or exceed the following specifications)
(1).The electrical performance of AAC and ACSR is indicated in DCΩ/km (20°C).The resistivity of the hard aluminum wire for stranded wires is not greater than 28.264 nΩ.
(2).The rated tensile strength of AAC is denoted with the result of total cross-section of all aluminum conductors multiplied by min. Tensile of corresponding size specified in the standard for aluminum wire.
(3).The rated tensile strength of ACSR is denoted with sum of all aluminum conductors tensile strength and steels tensile strength.
a. The tensile strength of all aluminum conductors is denoted with the result of all cross-sections of aluminum conductors multiplied by min. Tensile strength of corresponding size specified in the standard for aluminum wire.
b. The tensile strength of all steel wire is denoted with the result of all cross-sections of steel wires multiplied by the stress at 1% elongation of corresponding size specified in the standard for steel wire.