ROLLING METHOD FOR THICK STEEL PLATE
PROBLEM TO BE SOLVED: To further reduce an in-plate plate thickness deviation even when rolling a thick steel plate having comparatively thick product plate thickness at a comparatively small draft.SOLUTION: A rolling method for a thick steel plate is provided which is comprised of a plurality of pa...
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| Zusammenfassung: | PROBLEM TO BE SOLVED: To further reduce an in-plate plate thickness deviation even when rolling a thick steel plate having comparatively thick product plate thickness at a comparatively small draft.SOLUTION: A rolling method for a thick steel plate is provided which is comprised of a plurality of passes, and is characterized in that a slab thickness being an initial plate thickness before rolling a rolling object material is 250(mm) or more, and a product plate thickness of the rolling object material is 150(mm) or more, and the rolling shape ratio of at least the final pass is 0.3 or more. The rolling shape ratio is Γ=Ld/hm, and Ld is the geometrical contact arc length (mm), and hm is the average plate thickness (mm) and hm=(an inlet side plate thickness+2×a roll gap)/3.SELECTED DRAWING: Figure 5
【課題】比較的製品板厚の厚い厚鋼板の圧延を、比較的小さい圧下率で行った場合であっても、板内板厚偏差をより小さくすることを可能にする。【解決手段】複数パスからなる厚鋼板の圧延方法であって、被圧延材の圧延前の初期板厚であるスラブ厚は250(mm)以上であり、前記被圧延材の製品板厚は150(mm)以上であり、少なくとも最終パスの圧延形状比が0.3以上である、ことを特徴とする、厚鋼板の圧延方法を提供する。ここで圧延形状比Γ=Ld/hmであり、Ldは幾何学的接触弧長(mm)、hmは平均板厚(mm)、hm=(入側板厚+2×ロールギャップ)/3である。【選択図】図5 |
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