Aluminum Conductors:
MADO can ready for supply and install conductors as per our client’s specification & requirements. Our range of conductors includes ( ACSR Conductors, AAC Conductors, AAAC Conductors)
ACSR Conductors (Aluminum Conductor Steel Reinforced):
The higher strength ACSR conductors are commonly used for river crossings, overhead earth wires, and installations involving extra-long spans. The ACSR conductor can, against any given resistance, be manufactured to different tensile strengths, so a high tensile strength combined with its lightweight properties means it can cover longer distances with fewer supports. Due to the greater diameter of the ACSR conductor, a much higher corona limit can be obtained which is advantageous on high and extra high voltage overhead lines.
AAC Conductors(All Aluminum Conductors):
AAC Conductor is principally used in urban areas where spacing is short and the supports are close. It can be used in coastal regions owing to its high degree of corrosion resistance and is also used extensively within the Railway and Metro industries.
ACSR/AW (Aluminum Clad Steel Reinforced /AW core):
ACSR/AWis primarily used as the phase conductor for overhead transmission and distribution. It is preferred over conventional ACSR because of its higher corrosion resistance, lighter weight, longer service life, and reduced power loss.
AAAC Conductors(All Aluminum Alloy Conductors):
AAAC conductors are used as a bare conductor cable on aerial circuits that require a larger mechanical resistance than the AAC and a better corrosion resistance than the ACSR. The sag characteristics and the strength-to-weight ratio of the AAAC conductor cable are better than both AAC and ACSR.
TACSR,TACSR/AW,TACIR/AW:
High Temperature Thermal Resistant Alloy Conductor these are high capacity conductors with inner core composed of galvanized Steel, Al.clad Steel, Al.clad Invar Steel and outer layer composed of thermal resistant aluminum alloy.
ACSS and ACSS/AW:
ACSS/AW is used for overhead distribution and transmission lines. It is designed to operate continuously at elevated temperatures up to 250˚C without loss of strength; it sags less under emergency electrical loadings than ACSR/AW; it is self-damping if pre-stretched during installation; and its final sags are not affected by long term creep of applications requiring increased current with existing tensions and clearances, new line applications where structures can be economized because of reduced conductor sag, new line applications requiring high emergency loadings, and lines where Aeolian vibration is a problem. ACSS/AW offers strength characteristics similar to ACSS, along with slightly greater capacity and resistance to corrosion due to the aluminum-cladding of the steel core wires.
