SUI Feng-li
,
CHEN Qi-wei
,
ZHU Guo-hui
,
LIU Bao-dong
钢铁研究学报(英文版)
An analytic model based on ANSYS/LS-DYNA has been developed on the cold rolling process for Q235 steel rebar with 12 mm in diameter. The elastic-plastic finite element method (FEM) and the cold deformation resistance model of Q235 steel were adopted in this model. Deformation uniformity of the final product has been analyzed using this model. The results indicate that the uniformity of the final product is obtained only as the centerline of the bending rolls is vertical to the centerline of the driven roll and parallel to the centerline of the drive roll in the whole rolling process. Besides, the number of the bending rolls must even realize the continuous bending and reverse bending process. Also, the number of the bending rolls must match the deformation degree of the workpiece in the cold rolling process. The validity of this finite element model was verified by the size and distribution of grains from the billet to the rebar in a practical cold rolling process.
关键词:
deformation uniformity
,
Q235 steel rebar
,
finite element method
,
cold rolling
,
mechanical descaling
ZHU Xue-song
,
ZHU Guo-hui
,
MAO Wei-min
钢铁研究学报(英文版)
Average grain size and grain size distribution in as hot-rolled SPHC, SPHD, and SPHE sheets manufactured by compact strip production (CSP) processing and traditional continuous casting and rolling (CCR) processing respectively were investigated by quantitative metallographic method. The results show that the average grain size and distribution width of grain size in sheets manufactured by CSP processing was obviously larger than that by CCR processing. It was analyzed that multi-phase transformation and high reduction ratio in CCR processing resulted in refining grain size, which would be dominant reason for controlling grain size. In plain carbon steels such as SPHC, SPHD and SPHE, the effect of fine precipitation in CSP on behavior of deformation and recrystallization of austenite during rolling, and consequent refinement of grain size seem not to be as important as the effect of re-heating and roughing in CCR processing. Homogenizing in re-heating and refining grain size in roughing in CCR processing would refine final grain size and also make grain size homogenized. Very coarse grain size would result in mixed grain size, large distribution width of grain size due to interaction of static and dynamic recrystallization in CSP processing.
关键词:
CSP
,
CCR
,
hot-rolled plate
,
grain size
