Abstract:Based on the principle of inverse heat transfer problems, a new experimental apparatus was developed to measure the contact heat transfer coefficient in the transient condition. The transient contact heat transfer was investigated between the hot TP2 copper and cold 3Cr2W8V steel. The results show that the contact pressure is in the range of 1.56−7.80 MPa, the initial temperatures of the hot TP2 copper are 400, 500 and 600 ℃, and the initial temperatures of the cold 3Cr2W8V steel are 100, 200 and 300 ℃. The contact heat transfer coefficient increases rapidly to a level in a very short time (5 s), from which a much slower increase occurs. The contact heat transfer coefficient increases with increasing contact pressure according to the power law correlation, and it is relatively high at high initial temperature.

Key words: TP2 copper; 3Cr2W8V steel; transient method; inverse heat transfer method; contact heat transfer coefficient