Theoretical and Experimental Study of Non-Steady-State Pipe Reduction Process Using a Tesa 20-102 Mill


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Abstract

We describe the results of an experimental study of longitudinal and transverse variations in wall thickness at the ends of pipes after rolling in a stretch-reducing mill (SRM). We found that the largest “contribution” to the scatter in wall thickness comes from internal hexagon produced in the pipes by the reduction-mill drawing schedule and the roll pass design. A mathematical model was developed based on current high-speed SRM mode calculation procedures, and the plastic tension coefficients, rolling diameters, and roller speeds for each SRM stand in steady-state rolling mode were calculated. The pipe wall thicknesses calculated using the mathematical model were similar to those obtained experimentally. The accuracy of the pipe inside diameter was determined.

About the authors

A. A. Bogatov

Russian President B. N. Yeltsin Ural Federal University Federal State Independent Educational Organization

Email: d.a.pavlov@urfu.ru
Russian Federation, Ekaterinburg

D. A. Pavlov

Russian President B. N. Yeltsin Ural Federal University Federal State Independent Educational Organization

Author for correspondence.
Email: d.a.pavlov@urfu.ru
Russian Federation, Ekaterinburg

V. B. Timofeev

Seversk Pipe Plant PJSC

Email: d.a.pavlov@urfu.ru
Russian Federation, Polevskoi, Sverdlovsk Oblast

E. A. Pavlova

Russian President B. N. Yeltsin Ural Federal University Federal State Independent Educational Organization

Email: d.a.pavlov@urfu.ru
Russian Federation, Ekaterinburg

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