We used experiments with a fusing nip of a laser printer to verify a simple
mathematical model for the heat transfer to paper in a hot nip. After we h
ad adjusted roll parameters to match the measured cooling in the absence of
paper, the model reproduced measurements with paper very well. The solutio
n employs perfect thermal contact between paper and hot rolls, thus complet
ely avoiding the phenomenological heat transfer coefficient. We found that
the heating of paper in a hot nip depends primarily on its thermal diffusiv
ity. The cooling of the hot roils, caused by the running paper, depends on
the velocity of paper, its heat capacity per unit area, and the initial tem
perature difference between the rolls and paper.