Microstructure and Mechanical Properties of Nanostructured and Ultrafine-Grained Titanium and the Zirconium Formed by the Method of Severe Plastic Deformation

Sharkeev, Yu. P.; Eroshenko, A. Yu.; Данилов, В. И.; Толмачев, А. И.; Уваркин, П. В.; Abzaev, Yu. A.

doi:10.1007/s11182-014-0156-3

Cited by 25 publications

(8 citation statements)

References 4 publications

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“…Each cycle includes three-fold forging passes at a certain temperature. Through successive forging passes, the temperature of the billet gradually decreases to 50 • C. For example, in the case of MDF with titanium, the deformation temperature decreases from 500 to 400 • C [90].…”

Section: Technological Aspects Of Combined Spd Including Mdf or Psc A...mentioning

confidence: 99%

“…Technologically, this is due to two main points: the possible danger of mechanical destruction of the material, caused by the press-mold, and premature wear of the material at high temperatures. The PSC process for titanium is carried out at a reduction of temperature from 500 to 400 • C, which, in turn, initiates limited deformation conditions and results in more efficient grain refinement with fewer cycles [90].…”

Section: Technological Aspects Of Combined Spd Including Mdf or Psc A...mentioning

confidence: 99%

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Development of Ultrafine–Grained and Nanostructured Bioinert Alloys Based on Titanium, Zirconium and Niobium and Their Microstructure, Mechanical and Biological Properties

Sharkeev

Eroshenko

Легостаева

et al. 2022

Metals

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For this paper, studies of the microstructure as well as the mechanical and biological properties of bioinert titanium, zirconium, and niobium alloys in their nanostructured (NS) and ultrafine-grained (UFG) states have been completed. The NS and UFG states were formed by a combined two-step method of severe plastic deformation (SPD), first with multidirectional forging (MDF) or pressing into a symmetrical channel (PSC) at a given temperature regime, and then subsequent multi-pass groove rolling (MPGR) at room temperature, with pre-recrystallization annealing. Annealing increased the plasticity of the alloys in the NS and UFG states without changing the grain size. The UFG structure, with an average size of structural elements of no more than 0.3 μm, was formed as a result of applying two-step SPD and annealing. This structure presented significant improvement in the mechanical characteristics of the alloys, in comparison with the alloys in the coarse-grained (CG) or small-grained (SG) states. At the same time, although the formation of the UFG structure leads to a significant increase in the yield strength and tensile strength of the alloys, their elastic modulus did not change. In terms of biocompatibility, the cultivation of MG-63 osteosarcoma cells on the polished and sandblasted substrates demonstrated high cell viability after 10 days and good cell adhesion to the surface.

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Section: Technological Aspects Of Combined Spd Including Mdf or Psc A...mentioning

confidence: 99%

Section: Technological Aspects Of Combined Spd Including Mdf or Psc A...mentioning

confidence: 99%

Development of Ultrafine–Grained and Nanostructured Bioinert Alloys Based on Titanium, Zirconium and Niobium and Their Microstructure, Mechanical and Biological Properties

Sharkeev

Eroshenko

Легостаева

et al. 2022

Metals

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“…Мелкозернистое состояние сплава ВТ-6 достигалось методом радиально-сдвиговой прокатки [25] на мини-стане винтовой прокатки «14-40» с предварительным нагревом заготовок в интервале температур 850-700 °С. Мелкозернистую структуру в Ti45Nb формировали комбинированным двухэтапным методом интенсивной пластической деформации, который включал многократное abc-прессование и многоходовую прокатку в ручьевых валках с последующим отжигом [26,27]. Геометрия образцов представляла форму песочных часов (рис.…”

Section: материал и условия экспериментаunclassified

Nonlinear dynamics and stages of damage of Ti6Al4V and Ti45Nb titanium alloys in very high cycle fatigue

Bannikov

В²,

Oborin

et al. 2020

PNRPU Mechanics Bulletin

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The paper presents an experimental methodology aimed at evaluating a very-high cycle resource for aviation titanium alloys Vt-6 (Ti6Al4V) and Ti45Nb for medical applications with different microstructures (large-crystal and submicrocrystalline ones). The submicrocrystalline (SMC) state was obtained by an intensive plastic deformation realized in two ways: the three-dimensional forging for Ti45Nb and radial-shear rolling for Ti6Al4V. The experimental program tests high-cycle and very-high-cycle loading (number of cycles 107-109) realized using the in situ determination method of the accumulation of the irreversible fatigue damage by analyzing nonlinear forms of feedback in a closed system ultrasonic fatigue setup. This makes it possible to establish the connection of the microscopic fatigue mechanisms with the model views and consider the stages of the damage development based on the nonlinear kinetics of the defect accumulation under cyclic loading in high- and gigacycle fatigue modes. We established various relations between changes in the amplitude of the second harmonic of vibrations of the free end of the samples with different internal structures, which are associated with the mechanisms of stress relaxation and damage accumulation. The grain size reduction in Ti45Nb alloy by the three-dimensional forging improved the fatigue properties by 1.3-1.5 times, whereas for VT-6 alloy, the radial-shear rolling method could not increase the fatigue properties in the very high cycle fatigue range, which may be caused by the presence of large residual internal stresses. Based on the scale parameters obtained earlier from the fracture surface morphology and the relations established in this work, the kinetic equations for the origin and growth of fatigue cracks in the gigacycle loading range will be constructed. This equation, based on the empirical power parameters related to the structure of the material, will allow us to determine the number of cycles for the origin of an internal crack and its growth to the surface.

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“…Научные основы разработки материалов с многоуровневой иерархической структурой, в том числе для экстремальных условий эксплуатации DOI: 10.17223/9785946218412/268 РАЗРУШЕНИЕ СПЛАВОВ ВТ1-0 И Zr-1 МАС. %Nb В РАЗЛИЧНЫХ СТРУКТУРНЫХ СОСТОЯНИЯХ ПРИ НАГРУЖЕНИИ В РЕЖИМЕ ГИГАЦИКЛОВОЙ УСТАЛОСТИ 1 Майрамбекова А.М., 3,4 Шаркеев Ю.П., 2 Наймарк О.Б., 2 Банников М.В., 3 Ерошенко А.Ю., 2 Прогнозирование долговечности конструкционных материалов и разработка методов ее повышения является важнейшей фундаментальной задачей для широкого круга конструкционных материалов различного назначения. Известно, что материалы в ультрамелкозернистом состоянии обладают более высоким уровнем механических свойств, в частности, сопротивлением к усталостному разрушению и циклической долговечности и др.…”

unclassified

“…В работе проведены сравнительные исследования влияния структурного состояния (ультрамелкозернистого, мелкозернистого крупнокристаллического) на усталостную прочность сплавов ВТ1-0 и Zr-1 мас.%Nb при нагружении в гигацикловом режиме. В исследуемых сплавах ультрамелкозернистая структура была сформирована комбинированным двухэтапным методом интенсивной пластической деформации, который включал многократное abc-прессование и многоходовую прокатку в ручьевых валках с последующим отжигом [2]. Исследуемые образцы подвергались нагружению на ультразвуковой резонансной усталостной машине Shimadzu USF-2000 в режиме гигацикловой усталости при частоте циклических колебаний 20 кГц с коэффициентом асимметрии цикла R = -1 [1].…”

unclassified

RAZRUShENIE SPLAVOV VT1-0 I Zr-1 MAS. %Nb V RAZLIChNYH STRUKTURNYH SOSTOJaNIJaH PRI NAGRUZhENII V REZhIME GIGACIKLOVOJ USTALOSTI

Mairambekova¹

2019

International Workshop "Multiscale Biomechanics and Tribology of Inorganic and Organic Systems" ; Mezhdunarodnaja Konferencija

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Microstructure and Mechanical Properties of Nanostructured and Ultrafine-Grained Titanium and the Zirconium Formed by the Method of Severe Plastic Deformation

Cited by 25 publications

References 4 publications

Development of Ultrafine–Grained and Nanostructured Bioinert Alloys Based on Titanium, Zirconium and Niobium and Their Microstructure, Mechanical and Biological Properties

Development of Ultrafine–Grained and Nanostructured Bioinert Alloys Based on Titanium, Zirconium and Niobium and Their Microstructure, Mechanical and Biological Properties

Nonlinear dynamics and stages of damage of Ti6Al4V and Ti45Nb titanium alloys in very high cycle fatigue

RAZRUShENIE SPLAVOV VT1-0 I Zr-1 MAS. %Nb V RAZLIChNYH STRUKTURNYH SOSTOJaNIJaH PRI NAGRUZhENII V REZhIME GIGACIKLOVOJ USTALOSTI

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