No, it won't, because the clocks were never synchronized in the rest frame of the track to begin with. You said they were originally synchronized in the co-moving inertial frame of the train while it was on the straight track. That means that, in the rest frame of the track, the clocks were not synchronized: the clocks towards the front of the train were behind and the clocks towards the rear of the train were ahead. And since all of the clocks continue to have the same speed in the rest frame of the track (they just change direction as they go around the circle), their tick rates, as seen in the rest frame of the track, remain the same. Which means that when the clocks at the front and rear of the train meet momentarily as the front clock completes the circle, they will not read the same: the front clock will be behind the rear clock by the same amount it always has been.
Quite a few posts ago you were told that the easiest way to analyze this problem was in the ground frame (i.e., the rest frame of the track). Now you see why.