Choosing the Design of a Radial-Shear Rolling Mill for Obtaining a Screw Profile
Lezhnev S. Naizabekov A. Tolkushkin A. Panin E. Kuis D. Arbuz A. Tsyba P. Shyraeva E.
September 2024Multidisciplinary Digital Publishing Institute (MDPI)
Modelling
2024#5Issue 31101 - 1115 pp.
The purpose of this work is a comparative analysis of the workpiece shape, and parameters of the stress-strain state during deformation on two radial-shear rolling mills with different roll configurations to determine the most suitable scheme for obtaining a screw reinforcement profile. During the FEM simulation of the radial-shear rolling process in the DEFORM program, a comparison of the workpiece shape change after rolling, equivalent strain, damage index, and Lode–Nadai index was carried out. Steel 10 (analogue of AISI 1010) was chosen as material workpiece. The analysis of the obtained data revealed that the most rational choice for the implementation of the reinforcement profile production process is the radial-shear rolling mill RSR 10-30. Subsequent modeling of the combined process of radial-shear rolling and twisting in a screw matrix showed that when using rolls of RSR 10-30 mill, the screw profile of the workpiece is formed successfully, whereas using rolls of the SVP-08 mill, the formation of a screw profile is impossible due to jamming due to an irregular cross-section shape. A laboratory experiment confirmed the possibility of forming a screw reinforcement profile at RSR 10-30 mill, and an assessment of the geometric parameters of the final workpiece showed full compliance with the dimensions of the profiles obtained during modeling and experiment.
combined process , experiment , radial-shear rolling , severe plastic deformation , simulation , twisting
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Metallurgy and Mining Department, Rudny Industrial University, 50 let Oktyabrya Str. 38, Rudny, 111500, Kazakhstan
Metallurgy Department, Innovative University of Eurasia, Lomov St. 45, Pavlodar, 140000, Kazakhstan
Metal Forming Department, Karaganda Industrial University, 30 Republic Ave., Temirtau, 101400, Kazakhstan
Materials Science and Engineering Systems Design Department, Belarusian State Technological University, 13a Sverdlova Str., Minsk, 220006, Belarus
Core Facilities Department, AEO Nazarbayev University, 53 Kabanbay Batyr Ave., Astana, 010000, Kazakhstan
LLP “Promtech Perspective”, 7/2 Prigorodnaya Str., Karaganda, 100000, Kazakhstan
Nosov Magnitogorsk State Technical University, 38 Lenin Street, Magnitogorsk, 455000, Russian Federation
Metallurgy and Mining Department
Metallurgy Department
Metal Forming Department
Materials Science and Engineering Systems Design Department
Core Facilities Department
LLP “Promtech Perspective”
Nosov Magnitogorsk State Technical University
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