Fluid Couplings Market: Overview
A fluid coupling is a device used to transmit rotation between shafts by means of acceleration and deceleration of hydraulic fluids such as water or oil. Fluid couplings operate on the principles of hydrokinetic transmission. The hydrokinetic principle of a fluid coupling makes it effective to accelerate driven machines. Fluid couplings limit torque and reduce torsional vibrations thus, providing load sharing. The coupling protects the drive system from wear & tear/damage even under extreme operational conditions. This reduces breakdown and ensures a continuous production process without production delays.
Fluid Couplings Market: Drivers & Restraints
In a fluid coupling, hydraulic coupling medium, which utilizes hydraulic fluid is extensively used in several end-user industries. Hydraulic fluid couplings transfer rotational force from a transmitting axis to a receiving axis. A coupling consists of two toroids, which are doughnut-shaped objects placed inside a sealed container of hydraulic fluid. One toroid is attached to the driving shaft and spins with the rotational force. The spinning toroid moves the hydraulic fluid around the receiving toroid.
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The movement of the fluid turns the receiving toroid and thus, turns the connected shaft. The fluid coupling is considered a ‘soft start’ device, as the motor shaft (prime mover) starts essentially under no load. The inner impeller produces external load on the motor shaft. This enables the motor to reach maximum speed under virtually no load. Fluid couplings consist of two bladed wheels that face each other and are not in physical contact. The pump wheel or driving turbine is connected to the driving machine. The power is transmitted hydraulically in a wear-free manner. The higher the input speed, the greater the amount of mechanical energy transmitted from the blades on the pump wheel to the blades on the turbine wheel.
Ability of fluid couplings to work efficiently under severe environmental conditions drives the market. Electrical drive systems, such as variable speed drives, fluid couplings require low maintenance. The amount of fluid in the coupling can be varied to control the machine startup behavior and the amount of power transmitted.
Fluid Couplings Market: Key Segments
The global fluid couplings market can be segmented based on type, medium, end-user industry, and region. In terms of type, the market can be divided into constant-fill and fill-controlled. Based on medium, the fluid couplings market can be segregated into hydraulic fluid, mineral oil, and water. In terms of end-user industry, the market can be classified into automotive, mining, power generation, material handling, oil & gas, marine, mobile equipment, and transportation, and others applications.
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Fluid Couplings Market: Regional Outlook
Based on geography, the global fluid couplings market can be segmented into North America, Europe, Latin America, Asia Pacific, and Middles East & Africa. Asia Pacific dominates the global fluid couplings market. A majority of fluid couplings are utilized in automotive and oil & gas industries. Large volumes of fluid couplings are imported from China at affordable prices. Rapid industrialization in countries in Latin America is anticipated to present substantial opportunities to the fluid couplings market in the near future. The market in Europe is expected to expand at a rapid pace due to the deployment of fluid couplings by various end-user industries, especially oil & gas. Countries in North America and Europe are pioneers in technological developments related to fluid couplings.
Fluid Couplings Market: Key Players
Key players operating in the global fluid couplings market include Voith GmbH, ABB Motors and Mechanical Inc., Fluidomat Ltd., KTR Systems GmbH, Elecon Engineering Company Limited, and Rexnord Corporation.
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