Cables are an indispensable part of our daily life, they transport electricity, transmit signals, and provide convenience for our life and work. The structure of the cable can be divided into several parts, including conductors, insulation layers, shielding layers and jackets. Today, we will focus on the insulation layer of the basic structure of the cable.
Cables are an indispensable part of our daily life, they transport electricity, transmit signals, and provide convenience for our life and work. The insulation layer is an important part of the cable structure, its main role is to protect the conductor of the cable from the influence of the external environment, to prevent the leakage of current and short circuit of the conductor. Therefore, the material selection and structural design of the insulation layer have a crucial impact on the performance and service life of the cable. The structure of the cable can be divided into several parts, including conductors, insulation layers, shielding layers and jackets. Today, we will focus on the insulation layer of the basic structure of the cable.
In addition to material selection, the structural design of the insulation layer is also key. There are many kinds of insulating materials, and different types of cables choose different insulating materials according to their use environment and performance requirements. Common insulating materials include polyvinyl chloride (PVC), cross-linked polyethylene (XLPE), polyethylene (PE), etc. These materials have excellent electrical properties, mechanical properties and processing properties, and can maintain good working condition in a variety of environments. The insulation layer is usually composed of an inner insulation layer and an outer insulation layer. The inner insulation layer is directly wrapped around the conductor, and the outer insulation layer acts as the protective layer of the inner insulation layer. The inner and outer insulation layers can be made of different materials to achieve better electrical and mechanical properties.
In addition to material selection, the structural design of the insulation layer is also key. The insulation layer is usually composed of an inner insulation layer and an outer insulation layer. The inner insulation layer is directly wrapped around the conductor, and the outer insulation layer acts as the protective layer of the inner insulation layer. The inner and outer insulation layers can be made of different materials to achieve better electrical and mechanical properties.
In the manufacturing process, the insulating layer material needs to be mixed, plasticized, extrusion and other processes to form the insulation layer of the cable. This process requires precise control of material proportions, temperature, pressure and other parameters to ensure that the thickness, uniformity and density of the insulation layer meet the requirements.
In addition to acting as an isolation layer between the conductor and the external environment, the insulation layer can also play a certain role in signal transmission. For example, in optical fiber and cable, the coating layer and cladding together form the "coat" of the optical fiber, which not only protects the optical fiber from damage, but also plays a role in protecting and guiding the signal transmitted in the optical fiber.