Stranded wires offer various advantages compared to conventional wires:
1. flexibility: Stranded wires consist of many thin individual wires that are twisted together. This makes them much more flexible than solid wires. They are easier to bend, twist and guide around corners, making them ideal for applications where flexibility is required.
2. pliability: Due to their structure, stranded wires are also very pliable. They can be bent into tight radii and curves without losing their conductivity or being damaged.
3. compactness: By using many individual wires instead of one solid wire, stranded wires can be produced in a smaller diameter. This means they take up less space and can be used in confined spaces or compact devices.
4. vibration resistance: Due to the twisting process, stranded wires are also very resistant to vibrations. They are less susceptible to breakage and wear from vibration, making them ideal for applications in harsh environments.
5. current carrying capacity: Due to the larger surface area created by the many individual wires, stranded wires have a higher current carrying capacity than comparable solid wires. This makes it possible to transport larger amounts of current without overheating or loss of power.
6. longevity: The structure of stranded wires makes them more resistant to repeated bending and deformation compared to solid wires. As a result, they are more durable and last longer.
7. weight reduction: By using stranded wire instead of solid wire, the overall weight of a component or application can be reduced. This is particularly important in areas such as aerospace or automotive where weight savings are a major consideration.
These advantages make stranded wire an attractive option in many applications, including electronics, electrical engineering, telecommunications and many other industries.