Rotary Forging to Improve the Strength Properties of the Zr–2.5% Nb Alloy

[1] Balazic M.(2007)Review: Titanium and titanium alloy applications in medicine Int. J. Nano Biomater. 1 3-34

[2] Kopac J.(1993)Zirconium for explants in traumatology and orthopedics Ortopediya, Travmatologiya i Protezirovanie, No. 1 31-33

[3] Jackson M. J.(2012)Titanium and zirconium based alloys modified by intensive plastic deformation and nitrogen ion implantation for biocompatible implants J. Mech. Behav. Biomed. Mater. 6 89-94

[4] Ahmed W.(2007)Grain refinement of commercially pure zirconium by ECAP and subsequent intermediate heat treatment Mater. Sci. Eng., A 449–451 1087-1089

[5] Shaposhnikov Yu. G.(2012)Creep behavior of a zirconium alloy processed by equal-channel angular pressing Acta Phys. Pol. A 122 485-489

[6] Sherepo K. M.(2013)Microstructure and mechanical properties of nanostructured and ultrafine-grained titanium and zirconium formed by severe plastic deformation Izv. Vuzov. Fiz. 56 47-53

[7] Gorokhov V. Yu.(2016)Effect of torsion conditions under high pressure on the structure and strengthening of the Zr–1% Nb alloy Phys. Met. Metallogr. 117 371-377

[8] Berchenko G. N.(2022)Effect of rotary forging on microstructure evolution and mechanical properties of aluminum alloy/copper bimetallic material Metall. Mater. Int. 28 1038-1046

[9] Byeli A. V.(2012)“Investigation of the potential of rotational forging to obtain materials with an ultrafine-grained structure,” Kuznechno-Shtampovochnoe Proizvodstvo. Obr. Mater Davleniem, No. 4 34-37

[10] Kukareko V. A.(2015)A. Macháčková, L. Kunčická, and F. Fojtík, “Fabrication and characterization of cold-swaged multilayered Al–Cu clad composites Mater. Des. 71 36-47

[1] Balazic M.(2007)Review: Titanium and titanium alloy applications in medicine Int. J. Nano Biomater. 1 3-34

[2] Kopac J.(1993)Zirconium for explants in traumatology and orthopedics Ortopediya, Travmatologiya i Protezirovanie, No. 1 31-33

[3] Jackson M. J.(2012)Titanium and zirconium based alloys modified by intensive plastic deformation and nitrogen ion implantation for biocompatible implants J. Mech. Behav. Biomed. Mater. 6 89-94

[4] Ahmed W.(2007)Grain refinement of commercially pure zirconium by ECAP and subsequent intermediate heat treatment Mater. Sci. Eng., A 449–451 1087-1089

[5] Shaposhnikov Yu. G.(2012)Creep behavior of a zirconium alloy processed by equal-channel angular pressing Acta Phys. Pol. A 122 485-489

[6] Sherepo K. M.(2013)Microstructure and mechanical properties of nanostructured and ultrafine-grained titanium and zirconium formed by severe plastic deformation Izv. Vuzov. Fiz. 56 47-53

[7] Gorokhov V. Yu.(2016)Effect of torsion conditions under high pressure on the structure and strengthening of the Zr–1% Nb alloy Phys. Met. Metallogr. 117 371-377

[8] Berchenko G. N.(2022)Effect of rotary forging on microstructure evolution and mechanical properties of aluminum alloy/copper bimetallic material Metall. Mater. Int. 28 1038-1046

[9] Byeli A. V.(2012)“Investigation of the potential of rotational forging to obtain materials with an ultrafine-grained structure,” Kuznechno-Shtampovochnoe Proizvodstvo. Obr. Mater Davleniem, No. 4 34-37

[10] Kukareko V. A.(2015)A. Macháčková, L. Kunčická, and F. Fojtík, “Fabrication and characterization of cold-swaged multilayered Al–Cu clad composites Mater. Des. 71 36-47