Effects on the cementite distribution in low carbon enamelling steels

To enamel modern LC‐steels it is necessary to provide a sufficient amount of hydrogen recombination sites as well as hydrogen traps within the materials microstructure to keep the hydrogen inside the steel. Hence surface defects like fish scaling, which are related to the effusion of hydrogen, can be avoided. Therefore it is necessary to produce internal surfaces inside the steel In form of hard and brittle particles which can be fractured during cold rolling and produce voids. For LC‐steels these particles could be formed by iron carbides. Aiming at an increased amount of cementite particles inside the steel, the carbon content could be raised or the parameters of the thermomechanical treatment (TMT) could be adjusted for a given carbon content to form coarse cementite particles. In this investigation the TMT‐parameters were systematically varied in hot compression tests and the results were evaluated by quantitative metallography. The focus was laid on the variation of the final deformation temperature, the coiling temperature and the cooling rate after coiling.