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1. Additive Manufacturing of Titanium Aluminide Alloy Ti–Al–V–Nb–Cr–Gd by Selective Electron Beam Melting

   We have studied the technological properties, chemical composition, and structure of a metal powder composition (MPC, 40–100 μm) made from a new...

   P. V. Panin, E. A. Lukina, ... S. A. Naprienko in Metallurgist

   Article 21 July 2023
   

2. Mechanical and Electrochemical Properties Comparison of Additively Manufactured Ti-6Al-4V Alloys by Electron Beam Melting and Selective Laser Melting

   This work involves additively manufactured Ti-6Al-4V alloys, which are widely used in automobile, biomedical, and aircraft components for a...

   Liliana Romero Reséndiz, Tonantzin Sánchez Cano, ... Metin U. Salamci in Journal of Materials Engineering and Performance

   Article Open access 30 April 2024
   

3. Selective Electron Beam Melting

   Selective electron beam melting (SEBM) is a type of additive manufacturing (AM), which is categorized into powder bed fusion (PBF) in ISO52900 as...

   Yuichiro Koizumi in Multi-dimensional Additive Manufacturing

   Chapter 2021
   

4. Study on the corrosion behavior of NiTi shape memory alloys fabricated by electron beam melting

   The poor processability of NiTi shape memory alloy with superior resistance to corrosion and wear is an important reason for hindering its extensive...

   Lianmin Zhang, Dechun Ren, ... Yugui Zheng in npj Materials Degradation

   Article Open access 14 September 2022
   

5. Microstructure and mechanical properties of an in-situ TiB₂ particle reinforced AlSi10Mg composite additive manufactured by selective electron beam melting

   Selective electron beam melting (SEBM) has been recently employed for additive manufacturing (AM) Al alloys but showing comparatively low hardness...

   Kaiwei Wu, Siming Ma, ... Zhe Chen in Journal of Materials Science

   Article 06 May 2023
   

6. Effect of Technological Parameters of Selective Electron Beam Melting on Chemical Composition, Microstructure, and Porosity of a TiAl-Alloy of Ti-Al-V-Nb-Cr-Gd System

   The effect of the linear energy input ( E _L ), varied from 120 to 300 J/m due to a change in the electron beam current (I) from 4 to 20 mA and the...

   P. V. Panin, E. A. Lukina, ... S. A. Naprienko in Metallurgist

   Article 01 September 2023
   

7. Properties of Ti–6Al–4V Alloy Powders for Selective Electron-Beam Additive Manufacturing of Products

   Abstract

   The properties of the powders used in additive manufacturing (AM), including electron-beam melting, of products have been studied. Defects in...

   E. V. Krasnova, Yu. A. Morgunov, ... N. V. Khomyakova in Russian Metallurgy (Metally)

   Article 01 December 2023
   

8. Finite Element Prediction of Residual Stress in Rhombic Dodecahedron Ti-6Al-4V Titanium Alloy Additively Manufactured by Electron Beam Melting

   In this work, a three-dimensional nonlinear transient thermo-mechanically coupled finite element model (FEM) is established to investigate the...

   Shangzhou Zhang, Yuankang Wang, ... Li Zhou in Acta Metallurgica Sinica (English Letters)

   Article 25 August 2022
   

9. Electron-Beam and Plasma Oxidation-Resistant and Thermal-Barrier Coatings Deposited on Turbine Blades Using Cast and Powder Ni(Co)CrAlY(Si) Alloys Produced by Electron-Beam Melting II. Structure and Chemical and Phase Composition of Cast CoCrAlY Alloys

   The structure and chemical and phase composition of oxidation-resistant CoCrAlY alloys produced by electron-beam melting and used in aircraft...

   T. O. Prikhna, I. M. Grechanyuk, ... O. V. Khomenko in Powder Metallurgy and Metal Ceramics

   Article 01 July 2022
   

10. Effect of beam offset on the microstructure and properties of a dissimilar tungsten/kovar electron beam weld

    Butt joints of tungsten and Kovar were prepared by different electron beam welding processes. This study investigates the effect of beam offset on...

    Guoqing Chen, **nyan Teng, ... Xuesong Leng in Welding in the World

    Article 02 March 2023
    

11. Fatigue crack growth resistance of a mesoscale composite microstructure Haynes 282 fabricated via electron beam melting additive manufacturing

    Materials synthesis via additive manufacturing gives unprecedented control over the solidified microstructure. While a number of studies have...

    Patxi Fernandez-Zelaia, Julio Ortega Rojas, ... Michael M. Kirka in Journal of Materials Science

    Article 15 January 2022
    

12. Microstructure and Mechanical Properties of TA15 Alloy Produced by Electron Beam Melting

    A series of TA15 specimens with different process parameters were built by electron beam melting in this paper to systematically investigate the...

    Jiangtao Ran, Fengchun Jiang, ... Hong Zhao in Metals and Materials International

    Article 01 December 2021
    

13. Recent Advances in Electron Beam Processing of Textile Materials

    Preparation, property enhancement, and incorporation of new functionality in textile materials through green processes are objectives of modern...

    Amol G. Thite, Kumar Krishnanand, Prasanta K. Panda in Applications of High Energy Radiations

    Chapter 2023
    

14. The Influence of the Electron Beam Treatment on Metal Nanopowders

    Abstract

    The results of differential thermal analysis of iron and aluminum nanopowders irradiated with an accelerated electron beam (up to 360 keV,...

    A. V. Mostovshchikov, N. M. Badamasi, ... I. S. Egorov in Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques

    Article 01 December 2023
    

15. Nanostructuring of Nb-Si-Cr Alloys by Electron Beam Melting to Improve the Mechanical Properties and the Oxidation Behavior

    Materials processed by additive manufacturing often exhibit a very fine-scaled microstructures due to high cooling rates in the process. In this...

    A. Förner, J. Vollhüter, ... M. Göken in Metallurgical and Materials Transactions A

    Article Open access 13 November 2021
    

16. Electron Beam Irradiation Effects and In-Situ Irradiation of Nanomaterials

    Electron beam irradiation of specimens is often referred to as damage but is inevitable in electron microscopy as the energetic electron beam...

    Tao Xu, He Zheng, ... Litao Sun in In-Situ Transmission Electron Microscopy

    Chapter 2023
    

17. Improving Surface Quality and Fatigue Life of Electron Beam Melted Ti6Al4V by Chemical Machining

    Due to the high demand for innovative parts from the aerospace, biomedical, and automotive industries, 3D printing of titanium parts is widely...

    Emanuele Manco, Fabio Scherillo, ... Rosario Borrelli in Journal of Materials Engineering and Performance

    Article Open access 27 November 2023
    

18. Effect of Cryogenic Treatment on Microstructure and Tribological Property Evolution of Electron Beam Melted Ti6Al4V

    Cryogenic treatment was used to improve the tribological properties of Ti6Al4V artificial hip joint implants. Cryogenic treatment at −196 °C with...

    **na Huang, **aowen Ma, Tianyi Xu in Journal of Wuhan University of Technology-Mater. Sci. Ed.

    Article 05 July 2024

19. Microstructure and Mechanical Properties of Electron Beam Melted Nb–W and Nb–W–Zr Alloys

    The present work deals with microstructure evolution and room temperature mechanical properties of electron beam melted Nb–10 wt.% W (Nb–W) and...

    M. Sankar, Shishir Chaudhary, ... B. Gopalakrishna in Transactions of the Indian Institute of Metals

    Article 12 October 2023
    

20. Electron Beam Radiation-Assisted Preparation and Modification of Thermoplastic Elastomer Blends

    For the last couple of decades, high-energy electron beam radiation is being used for cross-linking and curing polymers and polymer blends....

    K. Rajkumar, M. S. Banerji, ... Santosh Jagadale in Applications of High Energy Radiations

    Chapter 2023