beam additive manufacturing

History of AM | SpringerLink

Abstract. The history of Additive Manufacturing (AM) goes back to the nineteenth century in the form of photo-sculpture and three-dimensional (3D) cartography. The AM process chain is not limited to technological advancements and process mechanisms but also accelerated and supported through developments in Computer …

BEAMIT Group | Leading Additive Manufacturing services hub and …

With our wide specialization in high-end metal Additive Manufacturing (AM) components for demanding industries and our multiple certifications and accreditations for processing …

On Process Temperature in Powder-Bed Electron Beam Additive Manufacturing…

In this study, the experimental techniques, fabrications, and temperature measurements, developed in recent work (Cheng et al., 2014, "On Process Temperature in Powder-Bed Electron Beam Additive Manufacturing: Model Development and Experimental

A current review on electron beam assisted additive …

Electron beam-based additive manufacturing (EBAM) is an emerging technology to produce metal parts layer-by-layer. The purpose of this paper is to …

Additive Manufacturing

ADDITIVE MANUFACTURING (AM) With fifty-nine machines and countless cutting-edge technologies for 3D printing metal and polymer components, BEAMIT Group is one of the most advanced Additive Manufacturing …

Multi-physics modeling of grain growth during solidification in electron beam additive manufacturing …

This framework is applied to electron beam additive manufacturing of Inconel 718 using a complex spot scan pattern. The model shows that, with the same scan pattern, variations in the spot time and electron-beam …

On Ti6Al4V Microsegregation in Electron Beam Additive Manufacturing with Multiphase-Field Simulation …

Electron beam additive manufacturing is an effective method for the fabrication of complex metallic components. With rapid solidification, the characteristics of microsegregation within the interdendritic region are interesting and important for the subsequent phase transformation and final mechanical properties. However, in view of …

Crack Types, Mechanisms, and Suppression Methods during High-energy Beam Additive Manufacturing …

High-energy beam additive manufacturing (HEB-AM) of nickel-based superalloys has shown great application potential in aerospace and other fields. However, HEB-AM of nickel-based superalloys faces serious cracking problems because of the unique characteristics of superalloys, and this has become the most significant bottleneck …

[PDF] Review on powder-based electron beam additive manufacturing …

Published 18 June 2012. Engineering, Materials Science. This paper presents a thorough literature review of the powder-based electron beam additive manufacturing (EBAM) technology. EBAM, a relatively new additive manufacturing (AM) process, can produce full-density metallic parts directly from the electronic data of the designed part geometry.

Laser and electron-beam powder-bed additive manufacturing of …

In this paper, the application of these two AM technologies in fabrication of orthopaedic implants is reviewed, with specific focus on biocompatible materials such …

(PDF) Wire electron beam additive manufacturing of copper

The electr on beam, on. the other hand, achieves a high energy input even with copper and thus the desired efficiency. Wire electron beam additive man ufacturing (WEBAM) is capable to produce pore ...

Powder Bed Fusion types

Powder bed fusion is one of the 7 types of Additive manufacturing technologies. Selective-Laser-Sintering-support. Selective laser sintering (SLS) 3D printing has become renowned for its low cost, …

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Your expert for electron beam welding

The pro-beam Group is a global leader in the field of electron beam technology. We offer solutions for electron beam welding and drilling, along with surface coating solutions. Additionally, we are …

Electron beam additive manufacturing at the Nuclear AMRC

Electron beam additive manufacturing at the Nuclear AMRC. B. Baufeld, R. Widdison, +1 author. K. Bridger. Published 20 May 2016. Engineering, Environmental Science. TLDR. This paper aims to present EBAM builds realised at the Nuclear AMRC demonstrating the ability to achieve complex structures for different materials. Expand.

Microstructure and mechanical properties of Cu-Cr-Zr alloy prepared by electron beam additive manufacturing …

There are several additive manufacturing methods with commonly used heat sources including laser heat sources [15,16], electron beam heat sources [17,18], etc. However, laser additive manufacturing faces limitations with copper and copper alloys because of their high reflectivity and low absorption of laser energy.

BeAM Additive Manufacturing opens US office

BeAM, a French manufacturer of industrial metal Additive Manufacturing machines using Directed Energy Deposition (DED), has opened a US subsidiary, BeAM Machines, Inc., in Cincinnati, Ohio. The …

Microstructure-Based Modeling of Laser Beam Shaping During Additive Manufacturing

Recent experimental studies suggest the use of spatially extended laser beam profiles as a strategy to control the melt pool during laser powder bed fusion (LPBF) additive manufacturing. However, linkages connecting laser beam profiles to thermal fields and resultant microstructures have not been established. Herein, we employ a coupled …

Additive Manufacturing

Laser Beam Melting (LBM) LBM is currently the most commonly used method for the additive processing of metal powders. The generative process of Laser Beam Melting can be used to manufacture components from metallic powders into almost any shape, even very complex ones, directly from 3D CAD data. More Information.

Electron-beam additive manufacturing of high-nitrogen steel: …

The additive manufacturing process was implemented with following parameters: beam acceleration voltage of 30 kV, beam current – 16.5 mA, scanning frequency – 1 kHz, wire-feed rate – 3.3 mm/s, ellipse scan 4 × 4 mm.

Wire-based electron beam additive manufacturing of NiTiNb …

Here, we innovatively used electron-beam additive manufacturing (EBAM) to fabricate a NiTiNb SMA thin-walled structure. The phase-transformation temperature, …

International Conference on Electron Beam Additive Manufacturing…

In conclusion, the EBAM2023 conference highlighted the rising interest in electron beam-based Additive Manufacturing, due to the emerging innovations in machine technology and process observation as well as capabilities in alloy design through machine software, process strategies and computer-aided developments.

Sensors | Free Full-Text | Additive Manufacturing: A …

Additive manufacturing has revolutionized manufacturing across a spectrum of industries by enabling the production of complex geometries with unparalleled customization and reduced waste. Beginning as a rapid prototyping tool, additive manufacturing has matured into a comprehensive manufacturing solution, embracing …

Locations and contacts

Administration, development, micro drilling, contract manufacturing, coating, additive manufacturing pro-beam GmbH & Co. KGaA Zeppelinstr. 26 82205 Gilching Germany Telephone: +49 89 899 233-0 Don''t fill this field! Send request Munich pro-beam additive -0 ...

Electron Beam Melting (EBM) | Additive Manufacturing

3 · For EBM Implant Manufacturer, Growth Is Built into the Plan. Amplify Additive needs to be small today. A close, nimble team can innovate quickly and realize the promise of additive manufacturing for orthopedic implants. Yet the company needs to be bigger soon, because success will lead to scalable production.

Wire-based electron beam additive manufacturing of NiTiNb …

Additive manufacturing (AM) is extensively used in the fabrication of difficult-to-machine components due to its flexible design methods and powerful ability to fabricate complex shapes. For NiTiNb SMA, AM focuses primarily on laser powder-bed fusion (L-PBF) and laser-directed energy deposition (L-DED).

Electron-beam additive manufacturing

OverviewMetal powder-based systemsMetal wire-based systemsMarketSee alsoFurther readingExternal links

Electron-beam additive manufacturing, or electron-beam melting (EBM) is a type of additive manufacturing, or 3D printing, for metal parts. The raw material (metal powder or wire) is placed under a vacuum and fused together from heating by an electron beam. This technique is distinct from selective laser sintering as the raw material fuses have completely melted. Selective Electron Beam Melting (SEBM) emerged as a powder bed-based additive manufacturing (AM) technolog…

Residual stress and deformation in wire-feed electron beam additive manufactured …

Electron beam additive manufacturing (EBAM) has broad application prospects in the preparation of large structural components such as those in aerospace structures. It is of great significance to have a deep understanding of the residual stress distribution and deformation of EBAM. A three-dimensional transient thermal–mechanical …

(PDF) Electron Beam Additive Manufacturing: Deposition …

Electron Beam Additive. Manufacturing (EBAM) supplies a very eff icient, high power energy source which easily couples with metals. promising one of the highest deposition rates for all metal ...

Electron beam metal additive manufacturing: Defects formation …

In particular, electron beam heat source has certain advantages in processing these special high-performance materials. According to the type of feedstock …