ABSTRACT
Emphasizing solutions to the problems of achieving tight tolerances of important geometrical parameters such as thickness, width, cross-sectional profile, and flatness, this reference focuses on the principles and applications of the latest technology for producing high-quality, flat-rolled steel products.;Illustrated with more than 700 drawings, H
TABLE OF CONTENTS
chapter |3 pages
Modulation thods Waveforms Frequency me spectrum Amplitude modulation Frequency modulation VV lllJ
+ sin 2nifc + fm) t + sin 2nifc -
part |2 pages
Part III GAUGE CONTROL IN ROLLING MILLS
part |2 pages
Part IV WIDTH CONTROL IN ROLLING MILLS
chapter |8 pages
= = =
= -0.29. A good curve-fitting of the dog bone shape, as shown in Fig. 13.8, can be obtained
chapter |3 pages
w produced by the width gage A are fed forward into a process
Width Rolling direction Horizontal mill
chapter 0|4 pages
75 0.030 · = -
Approx roll diameter: 22.5 in. Roll barrel length: 58.0 in. 0.025 0.020 0.015 0.010 0.005
chapter |4 pages
CHAffER 20
It is a well-known fact that strip crown is greatly dependent on strip width. Indeed, the strip body trans-
chapter |10 pages
Work roll diameter after F2-F4:
715 mm Backup roll diameter 1335 mm Roll barrel length 218 4 mm WRB range ofF2-F6 stands: -50 to 100 t Permissible flatness (inclination): + 1.5% after FS, F6:). Rolled material: low carbon steel 2.34 2.50 4.31 4.31 4.37 Strip width, 1235
chapter |2 pages
Wl' W
Cor higher shall be considered as hot. Cor lower shall not be considered as hot.
chapter |7 pages
Target strip profile F6 stand roll force P
F1-F4 stands thickn., forces hi, Pi, i 1 to 4 Fl-F 4 i = 1 to 4