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RAPPING EXPERIMENT OF
ROLLING MILL PRESSURE SCREW-PAIRS
AND PLASTIC BULGE OF NUT
TEETH ANALYSIS
CHEN Xiumin1 SHEN Guangxian1 HUANG Qingxue2
(1. College of Mechanical Engineering,
Yanshan University, Qinhuangdao 066004;
2. College of Mechanical Engineering, University of Science and Technology Taiyuan, Taiyuan 030024
)
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Abstract: A 1/8 mill screw pair experiment model of heavy and medium plate mill is made to analyse the rapping mechanism and the forming reason of plastic bulge quantitatively. Based on the experiment model, a series of experiments are done like rapping distance testing, vibration experiment and FEM numerical simulation of the copper nut tooth plastic bulge. The mill screw pair is oriented on medium radius, which is force constraint and is unreliable. There is time difference between the mill screw and balance mechanism when bite and toss of steel, which is the main reason for the forming of rapping and plastic bulge. Compound nut is provided, which can take place of force constraint with geometric constraint which depends on the rear of nut tooth. In the compound nut, the back side of slave nut tooth is the working face. The results of 1/8 model experiment show that it can control screw-pair dynamic gap, realize self-balance of screw, reduce the effect of mill screw-pairs rapping and prevent the emergence of a plastic bulge of copper nut tooth with compound nut. At the same time, adopting compound nut can reduce the abrasion of copper nut effectively and elongate the nut lifetime.
Key words: Heavy and medium plate mill
Compound nut Mill screw-pairs rapping
Plastic bulge Lateral gap
CLC No: TTG333.1
国家自然科学基金(50075075), 国家“十五”重点科技攻关
(ZZ01-13A-02-01-03)资助项目. Received 20060423, received in revised form 20060919
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