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The typical graph of a drag torque or spin loss vs. speed of disengaged wet clutch of automotive transmission shows 4 types of trends. First one is increasing until a peak level, next decreasing to the lowest level, next saturating or being no change, and last again increasing. If the absolute value of drag torque at high speed (6000-20,000rpm) is high, the possibility of fluttering of friction disk, chipping, burning and delamination of friction materials will be high. Moreover, the efficiency of a transmission will be dropped and the life of it become shorter. Therefore, it is important to understand the physics behind the torque jump up at high speed. In our previous study, we investigated the possible reasons of torque jump up at high rotation speed. In this paper, we have extended our previous study and developed new groove design to reduce the drag toque in the high speed range.

Reduction of the drag torque and longevity of the clutch assembly are the most important factors for vehicle transmission improvement. The decreasing trend of the drag torque with speed after its peak is a common characteristic of the clutch assembly. Several theoretical models have been presented by the researchers describing the drag torque characteristics at lower clutch speed region. However, very little study has been made on the drag torque behavior at very high clutch speed region (6000~10000+ rpm). The unwanted occurrence of drag torque jump up at high speed operating condition remains unexplained till date. In this paper, we have investigated the possible reasons of torque jump up at high rotation speed and solution to overcome this problem. We have presented an analytical correlation of torque jump up with the excessive decrease of local static pressure and assumed that vacuum formation is one of the possible reasons of high speed torque rising and associated vibration.

Reduction of the drag torque and longevity of the clutch assembly are the most important factors for vehicle transmission improvement. The decreasing trend of the drag torque with speed after its peak is a common characteristic of the clutch assembly. Several theoretical models have been presented by the researchers describing the drag torque characteristics at lower clutch speed. However, very little study has been made on the drag torque behavior at very high clutch speed (6000∼10000+ rpm). The alarming jump of the drag torque at high speed operating condition remains unexplained till date. In this paper, we investigated the possible reasons of torque jump up at high rotation speed and solution to overcome this problem. We presented an analytical correlation of torque jump up with the excessive decrease of local static pressure and assumed that vacuum formation is the possible reason of high speed torque rising and associated vibration.