O-shaped hollow conductive rubber stripConductive silicone rubber is a commonly used conductive material in electrical engineering, electronic engineering, and communication engineering. It is composed of conductive fillers (such as metal particles, carbon particles, etc.) and a silicone rubber matrix.
The main reasons for using O-shaped hollow conductive rubber strips for conductive silicone rubber are as follows:
1. Good conductivity: O-shaped hollow conductive rubber strips and conductive silicone rubber have good conductivity and can provide stable current transmission. This advantage makes it widely used in electrical connections, grounding, and shielding.
2. High reliability: O-shaped hollow conductive rubber strips and conductive silicone rubber materials have good wear resistance and corrosion resistance, and can withstand significant mechanical stress and environmental influences. Therefore, in various harsh environments, it can maintain good conductivity and durability, ensuring the normal operation of the entire electrical system.
3. Easy to install and maintain: The structure design of the O-shaped hollow conductive rubber strip and conductive silicone rubber is reasonable, and it can be easily installed in the position where conductivity is needed. At the same time, it is relatively easy to maintain and replace, making maintenance and debugging work more convenient.
Based on the above characteristics, O-shaped hollow conductive rubber strips and conductive silicone rubber are widely used in various electrical equipment and electronic products, such as cable connection joints, insulation shielding sleeves, electronic packaging, etc. In some special fields, such as military and aerospace, it also has important application value.
It should be noted that the O-shaped hollow conductive rubber strip
Conductive silicone rubberDuring use, it is necessary to keep it dry and avoid prolonged contact with corrosive substances such as moisture and acidity to ensure its stable conductivity. In addition, as its conductivity is achieved through filler particles, the selection and dispersion of fillers can also affect its conductivity, and reasonable control is needed in material design and production processes.
