Continuous Electron Beam Post-Treatment of EBF3-Fabricated Ti–6Al–4V Parts

Panin, A. V.; Kazachenok, Marina; Перевалова, О. Б.; Martynov, S. A.; Панина, А. А.; Sklyarova, Elena

doi:10.3390/met9060699

Cited by 35 publications

(10 citation statements)

References 37 publications

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“…Both techniques significantly differ from each other, where the main difference is the heating and cooling rate. In the case of pulsed EBT, this rate can reach values of 10 9 K/s [12,13], while in the continuous mode it is about 10 5 K/s [14], which leads to the different structure and functional properties of the processed materials. In both types of techniques, the energy parameters of the beam are of major importance and are as follows: The acceleration voltage U [V]; the beam current I [A] and the beam diameter d [15].…”

Section: Electron-beam Surface Treatment: Heat Processesmentioning

confidence: 99%

Electron-Beam Surface Treatment of Metals and Alloys: Techniques and Trends

Valkov

Ormanova

Petrov

2020

Metals

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During the last decades, electron-beam treatment technologies (EBTT) have been widely used for surface modification of metals and alloys. The EBT methods are known as accurate and efficient. They have many advantages in comparison with the conventional techniques, such as very short technological process time, uniform distribution of the energy of the electron beam, which allows a precise control of the beam parameters and formed structure and properties of the materials, etc. Moreover, electron-beam treatment technologies are a part of the additive techniques, which are known as modern methods for manufacturing of new materials with unique functional properties. Currently, modern trends in the surface treatment of metals and alloys are based on the combination of electron-beam technologies with other methods, such as thin film deposition, plasma nitriding, etc. This approach results in a significant improvement in the surface properties of the materials which opens new potential applications and can involve them into new industrial fields. This paper aims to summarize the topics related to the manufacturing and surface treatment of metals and alloys by means of electron-beam technologies. Based on a literature review, the development and growth of EBT are considered in details. The benefits of these technologies—as well as their combination with other methods—are extensively discussed.

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Section: Electron-beam Surface Treatment: Heat Processesmentioning

confidence: 99%

Electron-Beam Surface Treatment of Metals and Alloys: Techniques and Trends

Valkov

Ormanova

Petrov

2020

Metals

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“…This problem cannot be completely solved by varying combinations of the building parameters. As was shown in Panin et al, 14 wire‐based EBAM Ti‐6Al‐4V wall‐shaped samples measuring 85 × 5 × 70 mm were characterized by large columnar prior β‐grains with a diameter of 500 to 1000 μm, while their length reached several millimeters. The current results evidence that the variation of AM strategy as well as water cooling of the substrate does not result in a significant decreased in average size of prior β‐grains.…”

Section: Resultsmentioning

confidence: 57%

Improving mechanical properties of wire‐based EBAM Ti‐6Al‐4V parts by adding TiC powders

Panin

Kazachenok

Sinyakova

et al. 2020

Mat Design & Process Comms

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This paper addresses the problem of enlarging the strength of Ti‐6Al‐4V titanium parts fabricated by wire‐based electron‐beam additive manufacturing (EBAM) technology. The investigations on microstructure and phase composition of wire‐based EBAM Ti‐6Al‐4V samples as well the as EBAM TiCx/Ti‐6Al‐4V ones fabricated by electron beam melting of titanium Ti‐6Al‐4V wire with simultaneous supply of TiC powder were performed. It is shown that adding of TiC powder into a molten pool significantly affects the microstructure and volume fraction of retained β phase in the EBAM‐built parts. The main conclusion made postulates that the combination of wire feeding–based EBAM and direct metal deposition technology, which utilizes a feed nozzle to supply the ceramic powder into a molten pool, provides an ample opportunity to produce EBAM TiCx/Ti‐6Al‐4V samples with increased microhardness and tensile strength.

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“…Параметры обработки импульсным или непрерывным электронным пучками подробно описаны в [11]. Независимо от режима охлаждения подложки методами ПЭМ фаза β-Ti наблюдается в виде прослоек по границам пластинчатых зерен α-Ti, унаследованных от α ′ -мартенсита [12]. В части зерен α-Ti наблюдаются как больше так и малоугловые границы с нанокристаллическими фазами β-Ti и α ′′ -Ti (рис.…”

Section: материалы и методики исследованияunclassified

Влияние охлаждения подложки на микроструктуру и фазовый состав изделий из титанового сплава Ti-6Al-4V, полученных методами аддитивных технологий

Перевалова¹,

Panin²,

Kazachenok³

2020

Журнал Технической Физики

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The microstructure, phase composition, and parameters of the -Ti based solid solution in the Ti-6Al-4V alloy obtained by 3D printing without cooling and with water cooling of the titanium substrate were studied by the methods of X-ray diffraction analysis, transmission diffraction and scanning electron microscopy, and optical metallography. It was found that the use of water cooling of the substrate leads to a decrease of the hereditary  grains sizes, an increase in the volume fraction of the  phase, a decrease in the volume fraction of the  phase and the total mean square displacement of atoms in the -Ti crystal lattice, as well as an increase in the elastic macrostrain of the samples.

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Continuous Electron Beam Post-Treatment of EBF3-Fabricated Ti–6Al–4V Parts

Cited by 35 publications

References 37 publications

Electron-Beam Surface Treatment of Metals and Alloys: Techniques and Trends

Electron-Beam Surface Treatment of Metals and Alloys: Techniques and Trends

Improving mechanical properties of wire‐based EBAM Ti‐6Al‐4V parts by adding TiC powders

Влияние охлаждения подложки на микроструктуру и фазовый состав изделий из титанового сплава Ti-6Al-4V, полученных методами аддитивных технологий

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