TY - GEN
T1 - Correlation between the loading of work-rolls, banding and rolled-in scale
AU - Reip, T.
AU - Krempaszky, C.
AU - Parteder, E.
AU - Sondermann, H.
AU - Werner, E.
PY - 2005
Y1 - 2005
N2 - During operation work-rolls in hot-strip rolling mills are subjected to high thermomechanical loads. These loads lead to a phenomenon called banding - a surface deterioration of the roll in the first stands of the finishing-train being responsible for rolled-in scale at the surface of the strip. To correlate the work-roll's loads with the appearance and amount of rolled-in scale, an equivalent load parameter (ELP) is proposed. The ELP is derived by studying the physical background of banding. Since low-cycle-fatigue is identified as governing mechanism of banding (initiation and growth of cracks), the ELP has to be proportional to the rolling-pressure, the contact time between the hot strip and the roll in the roll-gap and, hence, also the strip length. By analyzing the vast body of data of an industrial rolling mill, a correlation is confirmed between the ELP and the rolled-in scale as detected by a surface control system. This work aims at the development of a prediction tool for rolled-in scale serving to optimize rolling schedules.
AB - During operation work-rolls in hot-strip rolling mills are subjected to high thermomechanical loads. These loads lead to a phenomenon called banding - a surface deterioration of the roll in the first stands of the finishing-train being responsible for rolled-in scale at the surface of the strip. To correlate the work-roll's loads with the appearance and amount of rolled-in scale, an equivalent load parameter (ELP) is proposed. The ELP is derived by studying the physical background of banding. Since low-cycle-fatigue is identified as governing mechanism of banding (initiation and growth of cracks), the ELP has to be proportional to the rolling-pressure, the contact time between the hot strip and the roll in the roll-gap and, hence, also the strip length. By analyzing the vast body of data of an industrial rolling mill, a correlation is confirmed between the ELP and the rolled-in scale as detected by a surface control system. This work aims at the development of a prediction tool for rolled-in scale serving to optimize rolling schedules.
KW - Banding
KW - Loading of work-rolls
KW - Rolled-in scale
KW - Thermomechanics
UR - http://www.scopus.com/inward/record.url?scp=33845514338&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:33845514338
SN - 0873396456
SN - 9780873396455
T3 - Materials Science and Technology
SP - 25
EP - 29
BT - Materials Science and Technology 2005 - Proceedings of the Conference
T2 - Materials Science and Technology 2005 Conference
Y2 - 25 September 2005 through 28 September 2005
ER -