Abstract
Laying head is a high-precision engineering device in hot-rolled high speed wire rod production line. Previously research works are focused on the laying pipe wear-resisting. Laying pipe curve design method based on wire rod kinematics and dynamics analyses are not reported before. In order to design and manufacture the laying pipe, the motion and force process of the wire rod in the laying pipe should be studied. In this paper, a novel approach is proposed to investigate the force modeling for hot-rolled wire rod in laying pipe. An idea of limited element method is used to analysis and calculates the forces between laying pipe inner surface and wire rod. The design requirements of laying pipe curve for manufacturing are discussed. The kinematics and dynamics modeling for numerical calculation are built. A laying pipe curve equation is proposed by discussing design boundary conditions. Numerical results with different laying pipe curves design parameters are plotted and compared. The proposed approach performs good result which can be applied for laying pipe curve design and analysis for engineering application.
Highlights
Manufacturing of wire rod is obtained by a high speed hot-rolled wire rod production line
5.1 Laying Pipe Curves Obtain In order to make comparison with other laying pipes, two laying pipes using in different types laying head device are selected
Numerical results are carried out to discuss the dynamic performance with different design parameters
Summary
Manufacturing of wire rod is obtained by a high speed hot-rolled wire rod production line. The finishing milled wire rod passes through several water boxes with 35‒45 m length. After the finishing rolling and water box, there is a pinch roll and laying head. With the help of a high speed rotated pipe, the laying head will change hot wire rods into convoluted form and laying the wire rod coils on the Stelmor conveyor. The coils on Stelmor conveyor will be conveyed to the process. Stelmor conveyor provides cooling air and the coils will be cooled and achieve the desired final properties on the Stelmor conveyor
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