EVALUATION OF THE EFFECT OF AXIAL ADJUSTMENT ON THE STRENGTH OF THE ROLLING MILL MANDRELS

Authors

  • I. T. Bilan Taganrog Metallurgical Plant JSC (TAGMET JSC), Taganrog
  • K. V. Trubnikov Taganrog Metallurgical Plant JSC (TAGMET JSC), Taganrog
  • D. Yu. Zvonarev South Ural State University; The Russian Research Institute of the Tube & Pipe Industries, Joint Stock Company (RusNITI JSC), Chelyabinsk
  • M. N. Noskova South Ural State University; The Russian Research Institute of the Tube & Pipe Industries, Joint Stock Company (RusNITI JSC), Chelyabinsk http://orcid.org/0000-0002-8764-1008

DOI:

https://doi.org/10.14529/met220406

Keywords:

PQF continuous machine, computer simulation, stress, QForm, regression analysis

Abstract

Modern tube mills are usually equipped with mandrel mounted longitudinal mills such as PQF (Premium Finishing) and FQM (Thin Roll Mill) mills. The used mandrel, as a rule, reaches 10–12 m and is made of special grades of steel, resistant to abrasion, increased strength. During operation, the mandrel, when filling the deformation zone, passes through all the stands and is fixed at a certain distance. When rolling pipes, great attention is paid to setting up the mill both in terms of technological modes and in terms of the location of the stands relative to the rolling axis. During the operation of the mill, due to backlashes, vibrations and other negative factors, the axes of the stands can shift, which will lead to bending of the mandrel, increased tool wear, and accumulation of residual stresses in the mandrel. All this will create conditions for reducing the operational life of an expensive tool. In this regard, the article considers the effect of axial adjustment of PQF stands on the stress in the mandrel. In the course of the work, regressionsignificant equations of the influence of axial fit on the stress level in the mandrel were obtained.

Published

2023-03-26

Issue

Section

Metal Forming. Technology and Equipment of Metal Forming