Research on Asymmetric and Negative Offset Mechanism of Large-Scale Steel Plate Rolling Shear

Abstract:

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According to revised Cailikefu’s rolling shear force formula, motion path equation of spatial seven-bar path is built, and mechanical model, with such new structural features as asymmetric and negative offset, is thus successfully established for 2800 mm heavy shear of some Iron&Steel Company. Shear force and bar force of steel plate, before and after adoption of asymmetric and negative offset structure, are analyzed, as well as horizontal force component of mechanism that influences pure rolling shear and back-wall push force that keeps blade clearance. The discovery is that back-wall push force could be kept large enough at rolling start-up (i.e. the time that the maximum rolling shear produces), meanwhile, back-wall push force is the most approximate to side forces with adoption of 60mm~100mm offset. Theoretical results and on-site shear quality both indicate that new structural features such as asymmetric and negative offset plays an important role in ensuring pure rolling shear and keeping blade clearance constant, which provide an effective means to improve quality of steel plate.

Info:

Periodical:

Key Engineering Materials (Volumes 375-376)

Edited by:

Yingxue Yao, Xipeng Xu and Dunwen Zuo

Pages:

700-704

DOI:

10.4028/www.scientific.net/KEM.375-376.700

Citation:

Y. G. Li, L. F. Ma, Q. X. Huang, S. Q. Pang, "Research on Asymmetric and Negative Offset Mechanism of Large-Scale Steel Plate Rolling Shear", Key Engineering Materials, Vols. 375-376, pp. 700-704, 2008

Online since:

March 2008

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$35.00

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