With complete help and support of our team members, we deliver high grade and excellent range that commensurate to globally accepted standards. We are a high-flying name when it comes to superlative Electromagnetic Brakes! more...
The Braking of high flywheel inertia is possible by the brakes with large heat capacity and high heat dissipation. The Electromagnetic Fail Safe Brakes are designed to interrupt the torque transmission in the event of power failure. The Braking torque is applied by spring force wmore...
Multidisc clutches/brakes are known for their smooth acceleration... high operating performance. They are not surrounded by magnetic field. These type clutches are used with special friction material for the inner plates find use in dry applications also. The special feature of amore...
Multidisc clutches/brakes are known for their smooth acceleration... high operating performance. They are surrounded by magnetic field. These type of clutches requires no maintenance... particularly suitable for wet applications. The special feature of all our multi disc clutchesmore...
ย These are very fast (mille seconds) operating solenoid actuated electromechanical disc fail safe brakes. The Fail safe operation of brake type 1000 is derived from the braking torque generated by the spring pressure when the brake is electrically switched off. This pressure ismore...
Features: These brakes are conventionally termed as single phase EM Brakes although they are to be operated on 2 phase. 3 Phase Brake are also available where a higher torque is desired. Since these brakes are in normally closed position, the release of the Brake shoes is affectemore...
A magnetic brake consists of a permanent magnet, which induces currents in a rotating copper disk. The resulting eddy currents interact with the magnetic flux to produce Lorentz forces and subsequently a braking torque. This 3D problem is solved using a stationary formulation formore...
A magnetic brake consists of a permanent magnet, which induces currents in a rotating copper disk. The resulting eddy currents interact with the magnetic flux to produce Lorentz forces and subsequently a braking torque. This 3D problem is solved using a stationary formulation formore...