Aluminum wiring is electrical wiring made of aluminum, instead of the usual copper. It is widely and successfully used for electricity transmission and distribution. It is lighter and stronger than copper wire, which helps prevent the cables from sagging. It is also less expensive than copper wire. It has also been successfully used in aircraft wiring. In the 1960s, with the rising price of copper, electricians started to use it to wire homes and other buildings. Aluminum wiring was not successful in this application and it is a major safety problem. Because of the safety problems with aluminum wiring, it was discontinued for building wiring in the mid-1970s. Over time, aluminum wiring can separate from the screws on electrical outlets, switches, or lights, creating a poor connection, which causes the wire to heat up. The heat can cause the aluminum to oxidize, creating an even worse connection and more heat, which can eventually start a fire. Incorrect repairs to aluminum wiring, such as connecting aluminum wire to copper wire with twist-on wire connectors, can make the problem even worse. Even twist-on connectors designed to connect aluminum to copper can be dangerous. The only proper way to repair aluminum wiring is to connect it to copper "tails" (short pieces of copper wire) with crimped or screw-on connectors specifically designed for this purpose.
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Stranded conductors are composed of uninsulated “strands” of wire twisted together. The advantages of conductor stranding over a single strand of equal cross-section are increased flexibility and flex-fatigue life. Stranded conductor can be manufactured in a variety of configurations, the most common being concentric (true concentric, equilay concentric, unidirectional concentric, and unilay concentric), bunched and rope.
When the term “concentric stranding” is used, it refers to the definition of the word “concentric”, which is having a “common center”. Concentric conductor may be defined as: a central wire (strand) surrounded by one or more layers of helically laid wires in a geometric pattern.
The geometric pattern requires that concentric constructions can only be produced with 7, 19, 37, 61, (etc.) strands or members, following the pattern that each successive layer has 6 more strands than the layer below it.
In all types of concentric constructions, the geometric pattern of the strands is consistent for the entire length of the conductor. That is, the central strand, and the strands in each layer remain in their respective positions from the beginning to the end of its length.
The main advantage of concentric constructions is the close/tight diameter tolerances that can be maintained on the conductor. Concentric constructions have very smooth uniform surfaces that are suited for thin wall insulation in high performance applications.
There are four common types of “concentric” constructions manufactured for the high performance wire and cable industry. Although there are four distinct types, the industry normally refers to “Concentric” as “True Concentric” and will use the terms interchangeably. The other types are referenced as noted.
Concentric – or True Concentric characterized by a central wire surrounded by one or more layers of helically laid wires in a geometric pattern, with alternately reversed lay direction and increasing lay length.
Equilay – or Equilay Concentric characterized by a central wire surrounded by one or more layers of helically laid wires in a geometric pattern, with alternately reversed lay direction and the same lay length.
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Unidirectional – or Unidirectional Concentric characterized by a central wire surrounded by one or more layers of helically laid wires in a geometric pattern, with the same lay direction and an increasing lay length.
Unilay – or Unidirectional Equilay Concentric characterized by a central wire surrounded by one or more layers of helically laid wires in a geometric pattern, with the same lay direction and the same lay length.
Bunched Stranding – Bunch strand wire contains any number of strands in random pattern. Twisted in one operation, all strands have the same lay direction and same lay length, however, the result is a rougher surface and lower dimensional tolerance than the concentric constructions. The number of strands is determined by the size of the individual strands and the total cross-sectional area required.
Rope Stranding – Wire constructions consist of single strands assembled together into concentric or bunched configurations. Rope stranding has the advantage of increasing flexibility by using a larger number of finer strands while maintaining a tighter diameter tolerance than a simple bunched construction. Ropes are more evident in the larger AWG sizes, such as 8 AWG and larger, but there are also many applications that require the flexibility of rope constructions in the smaller gauges. Constructions vary and can contain hundreds or thousands of strands.
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