Hydrogen effect on Ti-6.5Al-3.5Mo-1.5Zr-0.3Si parts produced by electron beam melting; International Journal of Hydrogen Energy; Vol. 44, iss. 55
| Parent link: | International Journal of Hydrogen Energy Vol. 44, iss. 55.— 2019.— [P. 29380-29388] |
|---|---|
| Autor Corporativo: | |
| Outros autores: | , , , , |
| Summary: | Title screen In this work, the hydrogen sorption kinetics as well as the hydrogen effect on phase transformations, structure and properties of additively manufactured Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy using electron beam melting (EBM) were studied. In situ X-ray diffraction complex was used to analyze phase transitions in the EBM Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy under hydrogenation in gas atmosphere. The EBM mode is found to affect significantly on the microstructure and the rate of hydrogen sorption by Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy during hydrogenation at a temperature of 650 °C. The measurements have shown that the highest rate of hydrogen absorption is observed in samples manufactured at the beam current of 3 mA and the scanning speed of 150 mm/s. Hydrogenation of the samples leads to redistribution of alloying elements in the titanium alloy resulted in the formation of aluminum-rich α2-Ti3Al intermetallic phase and hydrides precipitation. Режим доступа: по договору с организацией-держателем ресурса |
| Idioma: | inglés |
| Publicado: |
2019
|
| Subjects: | |
| Acceso en liña: | https://doi.org/10.1016/j.ijhydene.2019.03.156 |
| Formato: | Electrónico Capítulo de libro |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=661267 |
Títulos similares
Hydrogen-Induced Phase Transformation and Microstructure Evolution for Ti-6Al-4V Parts Produced by Electron Beam Melting; Metals; Vol. 8, iss. 5
Publicado: (2018)
Publicado: (2018)
Influence of manufacturing parameters on microstructure and hydrogen sorption behavior of electron beam melted titanium Ti-6Al-4V alloy; Materials; Vol. 11, iss. 5
Publicado: (2018)
Publicado: (2018)
Electron Beam Impact on Microstructure and Microhardness of Ti–6Al–4V Titanium Alloy Produced by Wire Electron-Beam Additive Manufacturing Technology and Selective Laser Alloying at Simulation of Electronic-Beam Welding; Physics of Metals and Metallography; Vol. 125, iss. 7
Publicado: (2024)
Publicado: (2024)
Beam Current Effect on Microstructure and Properties of Electron-Beam-Melted Ti-6Al-4V Alloy; Journal of Materials Engineering and Performance; Vol. 28, iss. 10
Publicado: (2019)
Publicado: (2019)
Effect of the Beam Current during the Electron-Beam Melting of Titanium Alloy Ti-6Al-4V on the Structural Features and Phase Transitions in Gas-Phase Hydrogenation; Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques; Vol. 13, No. 3
Publicado: (2019)
Publicado: (2019)
New Ti–35Nb–7Zr–5Ta Alloy Manufacturing by Electron Beam Melting for Medical Application Followed by High Current Pulsed Electron Beam Treatment; Metals; Vol. 11, iss. 7
Publicado: (2021)
Publicado: (2021)
Surface Modification of the EBM Ti-6Al-4V Alloy by Pulsed Ion Beam; Metals; Vol. 11, iss. 3
Publicado: (2021)
Publicado: (2021)
The High-Temperature In Situ Synchrotron Study of the Structural-Phase Transformations in 3D-Printed Ti–6Al–4V and Ti–5Al–3Mo–V Titanium Alloys; Physics of Metals and Metallography; Vol. 125, iss. 9
Publicado: (2024)
Publicado: (2024)
Comparative Analysis of Weld Microstructure in Ti-6Al-4V Samples Produced by Rolling and Wire-Feed Electron Beam Additive Manufacturing; Physical Mesomechanics; Vol. 26, iss. 6
Publicado: (2023)
Publicado: (2023)
Effect of Heat Input on the Microstructure and Phase Composition of Additively Manufactured Ti–6Al–4V Alloy; Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques; Vol. 18, iss. 6
por: Kamelina K. D. Kristina Dmitrievna
Publicado: (2024)
por: Kamelina K. D. Kristina Dmitrievna
Publicado: (2024)
Effect of Ultrasonic Impact Treatment on Microstructure and Fatigue Life of 3D Printed Ti–6Al–4V Titanium Alloy; Physics of Metals and Metallography; Vol. 124, iss. 10
Publicado: (2023)
Publicado: (2023)
Microstructure and Compressive Behavior of Ti-6Al-4V Alloy Built by Electron Beam Free-Form Fabrication; Journal of Materials Engineering and Performance; Vol. 29, iss. 11
Publicado: (2020)
Publicado: (2020)
Микроструктура и микромеханизмы разрушения сплава системы Ni-Cr-Al, полученного методом электронно-лучевого аддитивного производства; Перспективы развития фундаментальных наук; Т. 1 : Физика
por: Лысунец М. А.
Publicado: (2025)
por: Лысунец М. А.
Publicado: (2025)
Process window for electron beam melting of Ti–42Nb wt.%; Journal of Materials Research and Technology; Vol. 25
Publicado: (2023)
Publicado: (2023)
Increasing the Fatigue Durability of an 3D-Printed Ti-6Al-4V Alloy Electron-Beam Welded Joint by Ultrasonic Electropulsing Shock Treatment; Physics of Metals and Metallography; Vol. 123, iss. 12
Publicado: (2022)
Publicado: (2022)
Hydrogen influence on defect structure and mechanical properties of EBM Ti-6Al-4V; Materials Today: Proceedings; Vol. 19, Pt. 5 : International Conference on Modern Trends in Manufacturing Technologies and Equipment 2019
por: Laptev R. S. Roman Sergeevich
Publicado: (2019)
por: Laptev R. S. Roman Sergeevich
Publicado: (2019)
Microstructural Transformation and Enhanced Strength of Wire-Feed Electron-Beam Additive Manufactured Ti–6Al–4V Alloy Induced by High-Pressure Torsion; Advanced Engineering Materials; Vol. 26, iss. 4
Publicado: (2024)
Publicado: (2024)
Energy input effects on the microstructure and mechanical behavior of Ti–Nb alloy additivelymanufactured by electron beam melting; Materials Science and Engineering: A; Vol. 938
Publicado: (2025)
Publicado: (2025)
The influence of chemical etching on porous structure and mechanical properties of the Ti6AL4V Functionally Graded Porous Scaffolds fabricated by EBM; Materials Chemistry and Physics; Vol. 275
Publicado: (2022)
Publicado: (2022)
In-situ X-ray diffraction study of hydrogen-induced phase transformation in wire-feed electron-beam additive manufactured Ti-6Al-4V alloy; Journal of Alloys and Compounds; Vol. 1045
Publicado: (2025)
Publicado: (2025)
The Structure and Properties of Microcrystalline and Submicrocrystalline Titanium Alloy VT1-0 in the Area of the Electron Beam Welding Seam; Russian Physics Journal; Vol. 60, iss. 6
Publicado: (2017)
Publicado: (2017)
Microstructure and Phase Composition of 3D Printed Titanium Metal Matrix Composites Based on Ti-Al-V-Fe System and Reinforced with TiC Particles; Russian Physics Journal; Vol. 67, iss. 9
Publicado: (2024)
Publicado: (2024)
In situ synthesis of a binary Ti–10at% Nb alloy by electron beam melting using a mixture of elemental niobium and titanium powders; Journal of Materials Processing Technology; Vol. 282
Publicado: (2020)
Publicado: (2020)
Особенности формирования сварного шва при имитации электронно-лучевой сварки толстостенных образцов ВТ6, полученных электронно-лучевой аддитивной; Перспективы развития фундаментальных наук; Т. 1 : Физика
por: Яхин А. Альберт
Publicado: (2025)
por: Яхин А. Альберт
Publicado: (2025)
Developing New Materials for Electron Beam Melting: Experiences and Challenges; Materials Science Forum; Vol. 941 : THERMEC 2018
Publicado: (2018)
Publicado: (2018)
Transformations of the Microstructure and Phase Compositions of Titanium Alloys during Ultrasonic Impact Treatment Part III: Combination with Electrospark Alloying Applied to Additively Manufactured Ti-6Al-4V Titanium Alloy; Metals; Vol. 13, iss. 5
Publicado: (2023)
Publicado: (2023)
Influence of anisotropy properties and structural inhomogeneity on elasticity and fracture of titanium alloys produced by electron-beam melting; International Journal of Advanced Manufacturing Technology; Vol. 135
Publicado: (2025)
Publicado: (2025)
Модификация микроструктуры в процессе ультразвуковой ударной электроискровой обработки сварных швов образцов ВТ6, полученных прокаткой и электронно-лучевой аддитивной технологией; Перспективы развития фундаментальных наук; Т. 1 : Физика
por: Яхин А. Альберт
Publicado: (2025)
por: Яхин А. Альберт
Publicado: (2025)
Influence of beam current on microstructure of electron beam melted Ti-6Al-4V alloy; Progress in Natural Science: Materials International; Vol. 29, iss. 4
Publicado: (2019)
Publicado: (2019)
Modification of Ti-6Al-4V alloy element and phase composition by compression plasma flows impact; Surface and Coatings Technology; Vol. 355
Publicado: (2018)
Publicado: (2018)
Laboratory X-ray Diffraction Complex for In Situ Investigations of Structural Phase Evolution of Materials under Gaseous Atmosphere; Metals; Vol. 10, iss. 4
Publicado: (2020)
Publicado: (2020)
The Effect of Heat Treatment on the Microstructure and Phase Composition of Wrought and 3D-Printed Ti–5Al–3Mo–1V Titanium Alloy Samples; Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques; Vol. 17, Suppl. 1
Publicado: (2023)
Publicado: (2023)
Structure and properties of welding joints of 1370 aluminum alloy obtained by electron-beam welding; Russian Physics Journal; Vol. 68, iss. 2
por: Solov’ev V. V. Vasily Vladimirovich
Publicado: (2025)
por: Solov’ev V. V. Vasily Vladimirovich
Publicado: (2025)
The impact of post manufacturing treatment of functionally graded Ti6Al4V scaffolds on their surface morphology and mechanical strength; Journal of Materials Research and Technology; Vol. 9, iss. 2
Publicado: (2020)
Publicado: (2020)
Влияние легирующих добавок в алюминиевом сплаве на микроструктуру, механические свойства и технологичность при селективном лазерном плавлении; Инновационные технологии в машиностроении
Publicado: (2022)
Publicado: (2022)
Application of Synchrotron Radiation for In Situ XRD Investigation of Zirconium Hydrides Formation at Gas-phase Hydrogenation; Physics Procedia; Vol. 84 : Synchrotron and Free electron laser Radiation: generation and application" (SFR-2016)
Publicado: (2016)
Publicado: (2016)
Hydrogen Effect on the Evolution of the Structural-Phase State and Superplastic Properties of Ultrafine-Grained Ti-Al-V-Mo Alloy; Physical Mesomechanics; Vol. 25, iss. 5
Publicado: (2022)
Publicado: (2022)
Structural-phase state and mechanical properties of submicrocrystalline titanium alloy Ti-6Al-4V obtained with use of reversible hydrogen alloying; Bulletin of the Tomsk Polytechnic University; Vol. 311, № 2
por: Grabovetskaya G. P. Galina Petrovna
Publicado: (2007)
por: Grabovetskaya G. P. Galina Petrovna
Publicado: (2007)
Hydrogen Accumulation and Distribution in Titanium Coatings at Gas-Phase Hydrogenation; Metals; Vol. 10, iss. 7
Publicado: (2020)
Publicado: (2020)
Microstructure and Phase Composition of VT1-0, VT6, and VT14 Titanium Alloys Produced by Wire-Feed Electron-Beam Additive Manufacturing; Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques; Vol. 16, iss. 6
Publicado: (2022)
Publicado: (2022)