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The clutch pedal in manual transmission plays a significant role in defining the comfort of driver as it is a direct customer interfaces in the vehicle. Clutch & its hydraulic release system in manual transmission are the significant components which affects the maneuverability of the vehicle and the driver comfort. The clutch pedal characteristics optimization is one of the vital parameters are involving various parameters like pedal effort, pedal travel, hump, engagement and disengagement travel, modulation travel & pedal return curve min load. Normally the clutch pedal characteristics has a hysteresis between the forward and return curve (depress and release of the clutch pedal). The hysteresis is the component of mechanical friction like clutch pedal, clutch cover, and hydraulic seal friction. For an optimum clutch pedal feel, free play, peak effort, max. travel, hump and return load are the major functional parameters.

During the vehicle launch (i.e. moving the vehicle from “0” speed), the clutch would be slowly engaged by the Driver or Transmission Control Unit (in Automatic Transmission/Automatic Manual Transmission vehicle) for smooth torque transfer between engine and transmission. The clutch is designed to transfer max engine torque with min heat generation. During the clutch engagement, the difference in flywheel and gearbox input shaft speed is called the clutch slipping phase which then leads to a huge amount of energy being dissipated in terms heat due to friction. As a result, clutch surface temperature increases consistently, when the surface temperature crosses the threshold limit, the clutch wears out quickly or burns spontaneously. Hence it is crucial to predict the energy dissipation and temperature variation in various components of clutch assembly through virtual simulation.