Study of stress-strain state during cross-wedge rolling with one tool

The peculiarity of cross-wedge rolling with one tool is the workpiece deformation with one tool and the fact that the workpiece is not supported with the tool from the opposite side. On both sides of the tool outside the contact with the workpiece, the workpiece is fixed with pairs of upper and lower tools, by means of which the axis of the workpiece is held in a constant position. Such conditions of rolling qualitatively change the deformation zone and, as a result, the stress-strain state.

The change in the stress-strain state was qualitatively estimated by comparing the fields of slip lines in the traditional two-tools cross rolling and one-tool cross rolling. One-tool cross rolling increases the normal and average stress at the contact by 7.8–14.5 %, changes the average stress of the specimen from tensile to compressive one in the axial region. This circumstance significantly increases the resource of plasticity and allows rolling metals with limited plasticity without opening the axial cavity. Comparative studies of the stress-strain state from the traditional two-tools cross-wedge rolling and one-tool cross-wedge rolling in the axial region of the workpiece have been carried out by computer simulation.

1. Kozhevnikova G. V. Theory and Practice of Cross-Wedge Rolling. Мinsk, Belorusskaya nauka Publ., 2010. 291 p. (in Russian).

2. Kozhevnikova G. V. Analysis of metal flow kinematics under cross-wedge rolling using computer simulation. Vestsi Natsyyanal’nai akademii navuk Belarusi. Seryya fizika-technichnych navuk = Proceedings of the National Academy of Sciences of Belarus. Physical-technical series, 2013, no. 1, pp. 47–53 (in Russian).

3. Shchukin V. Y., Kozhevnikova G. V., Petrenko V. V. Cross-wedge rolling at PTI NAS Belarus. Applied Mechanics and Materials, 2012, vol. 201–202, pp. 1198–1202. https://doi.org/10.4028/www.scientific.net/amm.201-202.1198

4. Astapchik A. S., Kozhevnikova G. V. Study of metal plasticity of billets processed by cross-wedge rolling. Vestsi Natsyyanal’nai akademii navuk Belarusi. Seryya fizika-technichnych navuk = Proceedings of the National Academy of Sciences of Belarus. Physical-technical series, 2014, no. 3, pp. 31–36 (in Russian).

5. Kozhevnikova G. V., Rudovich A. O., Shchukin V. Y. Improving of fatigue strength of shafts by cross-wedge rolling. Kuznechno-shtampovochnoe proizvodstvo. Obrabotka materialov davleniem = Forging and Stamping Production. Material Working by Pressure, 2017, no. 12, pp. 19–31 (in Russian).

6. Shchukin V. Y., Kozhevnikova G. V. Trends of cross-wedge rolling. Kuznechno-shtampovochnoe proizvodstvo. Obrabotka materialov davleniem= Forging and Stamping Production. Material Working by Pressure, 2016, no. 2, pp. 7–13 (in Russian).

7. Shchukin V. Y., Kozhevnikova G. V. Belarusian cross-wedge rolling school of thought. Vestsi Natsyyanal’nai akademii navuk Belarusi. Seryya fizika-technichnych navuk = Proceedings of the National Academy of Sciences of Belarus. Physical-technical series, 2016, no. 1, pp. 43–50 (in Russian).

8. Kozhevnikovа G. Cross-Wedge Rolling.Minsk, Belorusskaya nauka Publ., 2012. 321 p.

9. Makushok E. M., Matusevich A. S., Severdenko V. P., Segal V. M. Theoretical Foundations of Forging and Hot Forging. Minsk, Nauka i tekhnika Publ., 1968. 408 p. (in Russian).

10. Kozhevnikova G. V. Self-setting of forces of friction during cross rolling. Journal of Friction and Wear, 2016, vol. 37, no. 4, pp. 324–329. https://doi.org/10.3103/s1068366616040073