A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods

A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods

Titanium alloy product manufacturing is traditionally considered to be a rather difficult task. Additive manufacturing technologies, which have recently become quite widespread, can ensure the manufacture of titanium alloys products of an arbitrary geometrical shape. During this study, we have devel...

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Main Authors: Marina Samodurova, Ivan Logachev, Nataliya Shaburova, Olga Samoilova, Liudmila Radionova, Ramil’ Zakirov, Kirill Pashkeev, Vyacheslav Myasoedov, Evgeny Trofimov
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:Materials
Subjects:
additive manufacturing
titanium alloys
microstructure
Online Access:https://www.mdpi.com/1996-1944/12/19/3269
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spelling doaj-32515788bd74431dad57cfc986d769812020-11-25T01:27:37ZengMDPI AGMaterials1996-19442019-10-011219326910.3390/ma12193269ma12193269A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition MethodsMarina Samodurova0Ivan Logachev1Nataliya Shaburova2Olga Samoilova3Liudmila Radionova4Ramil’ Zakirov5Kirill Pashkeev6Vyacheslav Myasoedov7Evgeny Trofimov8Department of Metal Forming, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, Russia“Composite” Joint Stock Company, 4 Pioneer Street, Korolev, Moscow Region 141070, RussiaDepartment of Materials Science, Physical and Chemical Properties of Materials, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaDepartment of Materials Science, Physical and Chemical Properties of Materials, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaDepartment of Metal Forming, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaScientific and Educational Center “Engineering”, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaResource Center for Special Metallurgy, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaResource Center for Special Metallurgy, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaDepartment of Materials Science, Physical and Chemical Properties of Materials, South Ural State University, Lenin prospect 76, Chelyabinsk 454080, RussiaTitanium alloy product manufacturing is traditionally considered to be a rather difficult task. Additive manufacturing technologies, which have recently become quite widespread, can ensure the manufacture of titanium alloys products of an arbitrary geometrical shape. During this study, we have developed a methodology for manufacturing titanium alloys products using additive technologies on FL-Clad-R-4 complex of laser melting of metals by combined Selective Laser Melting (SLM) and Direct Metal Deposition (DMD) methods. Ti&#8722;6Al&#8722;4V and Ti&#8722;6Al&#8722;4Mo&#8722;1V alloys were used for the manufacture of samples. We studied the microstructure of the obtained details and measured the microhardness of the samples. We discovered a gradient of the structure throughout the height of the details walls, which is connected with the peculiarities of thermal cycles of the technology used. This affected the microhardness values: in the upper part of the details, the microhardness is 10&#8722;25% higher (about 500 <i>HV</i>) than in the lower part (about 400 <i>HV</i>). Products made according to the developed technique do not have visible defects and pores. The obtained results indicate the competitiveness of the proposed methodology.https://www.mdpi.com/1996-1944/12/19/3269additive manufacturingtitanium alloysmicrostructure
collection DOAJ
language English
format Article
sources DOAJ
author Marina Samodurova
Ivan Logachev
Nataliya Shaburova
Olga Samoilova
Liudmila Radionova
Ramil’ Zakirov
Kirill Pashkeev
Vyacheslav Myasoedov
Evgeny Trofimov
spellingShingle Marina Samodurova
Ivan Logachev
Nataliya Shaburova
Olga Samoilova
Liudmila Radionova
Ramil’ Zakirov
Kirill Pashkeev
Vyacheslav Myasoedov
Evgeny Trofimov
A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods
Materials
additive manufacturing
titanium alloys
microstructure
author_facet Marina Samodurova
Ivan Logachev
Nataliya Shaburova
Olga Samoilova
Liudmila Radionova
Ramil’ Zakirov
Kirill Pashkeev
Vyacheslav Myasoedov
Evgeny Trofimov
author_sort Marina Samodurova
title A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods
title_short A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods
title_full A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods
title_fullStr A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods
title_full_unstemmed A Study of the Structural Characteristics of Titanium Alloy Products Manufactured Using Additive Technologies by Combining the Selective Laser Melting and Direct Metal Deposition Methods
title_sort study of the structural characteristics of titanium alloy products manufactured using additive technologies by combining the selective laser melting and direct metal deposition methods
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2019-10-01
description Titanium alloy product manufacturing is traditionally considered to be a rather difficult task. Additive manufacturing technologies, which have recently become quite widespread, can ensure the manufacture of titanium alloys products of an arbitrary geometrical shape. During this study, we have developed a methodology for manufacturing titanium alloys products using additive technologies on FL-Clad-R-4 complex of laser melting of metals by combined Selective Laser Melting (SLM) and Direct Metal Deposition (DMD) methods. Ti&#8722;6Al&#8722;4V and Ti&#8722;6Al&#8722;4Mo&#8722;1V alloys were used for the manufacture of samples. We studied the microstructure of the obtained details and measured the microhardness of the samples. We discovered a gradient of the structure throughout the height of the details walls, which is connected with the peculiarities of thermal cycles of the technology used. This affected the microhardness values: in the upper part of the details, the microhardness is 10&#8722;25% higher (about 500 <i>HV</i>) than in the lower part (about 400 <i>HV</i>). Products made according to the developed technique do not have visible defects and pores. The obtained results indicate the competitiveness of the proposed methodology.
topic additive manufacturing
titanium alloys
microstructure
url https://www.mdpi.com/1996-1944/12/19/3269
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