What Is A Flexible Connector?

A flexible connector is created to deliver maximum electrical power to improve efficiency. It is made correspondingly with accurate specifications and are widely innovated for contraction/expansion, vibration with other high resistant values. The flexible connectors are used in several fields like communication and computers, power generation and transmission, fuel cells, plating, telecommunication, electrolytic processes, transformers and switch gears. The connectors made of copper in the form of braided wires and wire ropes come with a maximum flexibility. With respect to its application, they can be customized with silicon sleeves, heat shrink sleeves or without sleeves.

A flexible connector is used to provide the required flexibility of the pipe systems to assimilate noise and vibration, to allow movements of other elements used for piping and to compensate thermal growth. To reduce the forces and stress within the pipe systems, the flexible connectors are styled with the best wall thickness. Factory-engineered connectors efficiently separate the vibration moved by a mechanical equipment. So noise level needs are complied, the connectors will help reduce the vibration of pipes within the entire structure. For any application, the connectors can come from braided or laminated copper.

Superior durability and vibration features are provided by the flexible exhaust connectors. The flexible connector is made from special alloys for corrosion and temperature resistance. You can also add stiffness to its flexibility. In exhaust systems, the connectors furnish high tensile strength and create a leak-tight connection. The connectors are innovated with current carrying capacity of up to 4000 amps in a range of 1 sq. mm to 4000 sq. mm. Also manufactured for specific purposes are round type stranded copper connectors.

Braided pump connectors are utilized for stainless steel, rubber and pump equipment. To cover up the misalignment and to avoid stress due to contraction, the flexible connector is highly suggested. The connectors will assimilate movement problems in the pipe systems triggered by differences in composition and temperature variations. It will minimize the maintenance costs of the systems by preventing possible danger to the buckling or pulling apart. Solutions to the vibrations of pulsating equipment are using these flexible connectors.


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