APPLICATIONS
ACSS/TW is designed for overhead distribution and transmission lines. It is designed to operate continuously at elevated temperatures up to 250 ºC without loss of strength, it sags less under emergency electrical loadings than ACSR/TW, excellent self-damping properties, and its final sags are not affected by long-term creep of aluminum. ACSS/TW is available in equal area and equal diameter design. The equal area design allows equal ampacity in a smaller diameter conductor when compared with a standard ACSS conductor. The equal diameter design allows more ampacity in an equal diameter conductor when compared with a standard ACSS conductor. ACSS/TW also provides many design opportunities for new line construction: i.e., reduced tower cost, decreased sag, increased self-damping properties, increased operating temperature and improved corrosion resistance.

SPECIFICATIONS
  • B500 Metallic Coated Stranded Steel Core for Aluminum Conductors, Steel Reinforced.
  • B609 Aluminum 1350 Round Wire, Annealed and Intermediate Tempers, for Electrical Purposes.
  • B802 Zinc-5% Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Aluminum Conductors, Steel Reinforced.
  • B803 High-Strength Zinc-5% Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Aluminum and Aluminum-Alloy Conductors, Steel Reinforced.
  • B856 Concentric-Lay-Stranded Aluminum Conductors, Coated Steel Supported (ACSS).
  • B857 Shaped Wire Compact Concentric-Lay-Stranded Aluminum Conductors, Coated-Steel Supported (ACSS/TW).
CONSTRUCTION
ACSS is a composite concentric-lay-stranded conductor. Steel strands form the central core of the conductor with one or more layers of 63% minimum average conductivity aluminum 1350-0 wire stranded around it. The steel core carries most or all of the mechanical load of the conductor due to the ""0"" (fully annealed or soft) temper aluminum. Steel core wires are protected from corrosion by a zinc-5% aluminum-mischmetal alloy coating. High strength steel core, aluminized, and aluminum clad steel core is also available.

NOTES
  1. Data based on a nominal cable manufactured in accordance with ASTM B 857.
  2. Resistance and ampacity based on an aluminum conductivity of 63% IACS at 20 ºC and a steel conductivity of 8% IACS at 20 ºC.
  3. Ampacity based on referenced conductor temperature, 25 ºC ambient temperature, 2 ft/sec wind, in sun, with an emmisivity of 0.5 and a coefficient of solar absorption of 0.5, at sea level.
  4. Rated breaking strength for standard core based on Class A zinc-5% aluminum-mischmetal alloy coated steel core wire in accordance with ASTM B 802.
  5. Rated strength for high strength core based on Class A zinc-5% aluminum-mischmetal alloy coated high strength steel core wire in accordance with ASTM B 803.
  6. The final design of a shaped wire compact conductor is contingent upon several factors such as: layer diameter, wire width and wire thickness. The actual configuration of a given size may vary between manufacturers. This may result in a slight variation in the number of wires, number of layers and dimensions of individual wires from that shown in the chart.
    1. "

Size
(AWG or kcmil)

N/A 1192.5

Type
No.

N/A 7

Cross
Sectional
Area
Aluminum
(in²)

N/A 0.9366

Cross
Sectional
Area
Total
(in²)

N/A 1.0013

Stranding
No
of
Layers
of
Aluminum

N/A 3

Stranding
No.
of
Aluminum
Wires

N/A 34

No.
&
Diameter
Individual
Steel
Wire

N/A 7 x 0.1085

Diameter
Steel
Core
(in.)

N/A 0.3255

Diameter
Complete
Cable
(in.)

N/A 1.181

Alum.
Weight
(lbs/MFT)

N/A 1123

Steel
Weight
(lbs/MFT)

N/A 219.1

Total
Weight
(lbs/MFT)

N/A 1342

Rated
Breaking
Strength
Standard
Strength
(lbs)

N/A 20,900

Rated
Breaking
Strength
High
Strength
(lbs)

N/A 22,500

Rated
Breaking
Strength
Ultra
High
Strength
(lbs)

N/A 25,400

Resistance
DC
@
20 °C
(ohms/mile)

N/A 0.074

Resistance
AC
@
75 °C
(ohms/mile)

N/A 0.0954

Ampacity
@
75 °C
(amps)

N/A 1114

Ampacity
@
100 °C
(amps)

N/A 1374

Ampacity
@
150 °C
(amps)

N/A 1744

Ampacity
@
200 °C
(amps)

N/A 2023

Ampacity
@
250 °C
(amps)

N/A 2261