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Advancement of Selective Laser Melting by Laser Beam Shaping: Light Engineering für die Praxis

Autor Tim Marten Wischeropp
en Limba Engleză Paperback – 2 dec 2021
Selective Laser Melting (SLM), also referred to as Laser Powder Bed Fusion (L-PBF), offers significant advantages for the manufacturing of complex, high-quality parts. However, its market share is still small compared to conventional manufacturing technologies. Major drawbacks hindering an industrial ramp-up are low productivity, high part costs and issues with quality and reproducibility. Comprehensive research has been done to overcome these challenges, but little attention has been paid to addressing them by optimizing the laser beam profile. Therefore, the author examines the effect of the laser beam profile on the productivity and process stability through both numerical and experimental investigations. The results show clear advantages an optimized laser beam profile offers.
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Specificații

ISBN-13: 9783662645840
ISBN-10: 366264584X
Ilustrații: XX, 186 p. 132 illus., 120 illus. in color.
Dimensiuni: 168 x 240 mm
Greutate: 0.34 kg
Ediția:1st ed. 2021
Editura: Springer Berlin, Heidelberg
Colecția Springer Vieweg
Seria Light Engineering für die Praxis

Locul publicării:Berlin, Heidelberg, Germany

Cuprins

Introduction.- Fundamentals.- Numerical Model.- Experimental Set-Up.- Effect of Laser Beam Profile on SLM Process.- Industrial Relevance of Results.- Summary and Outlook.

Notă biografică

Tim Marten Wischeropp studied mechanical engineering at the Technical University of Hamburg (TUHH), Germany. After graduating with a focus on product development, he worked as a research fellow at the Institute of Laser and System Technologies (TUHH) as well as group leader for 3D printing at the LZN Laser Zentrum Nord GmbH. Since 2018 he leads the design department at the Fraunhofer Institution for Additive Manufacturing Technologies IAPT.

Textul de pe ultima copertă

Selective Laser Melting (SLM), also referred to as Laser Powder Bed Fusion (L-PBF), offers significant advantages for the manufacturing of complex, high-quality parts. However, its market share is still small compared to conventional manufacturing technologies. Major drawbacks hindering an industrial ramp-up are low productivity, high part costs and issues with quality and reproducibility. Comprehensive research has been done to overcome these challenges, but little attention has been paid to addressing them by optimizing the laser beam profile. Therefore, the author examines the effect of the laser beam profile on the productivity and process stability through both numerical and experimental investigations. The results show clear advantages an optimized laser beam profile offers.

The content

  • First comprehensive research on the effect of the laser beam profile on SLM process
  • Understand theeffect of the laser beam profile on the process stability and feasible productivity of the SLM process
  • Discover the benefits in terms of manufacturing costs and time that are offered by an optimized laser beam profile


The author

Tim Marten Wischeropp studied mechanical engineering at the Technical University of Hamburg (TUHH), Germany. After graduating with a focus on product development, he worked as a research fellow at the Institute of Laser and System Technologies (TUHH) as well as group leader for 3D printing at the LZN Laser Zentrum Nord GmbH. Since 2018 he leads the design department at the Fraunhofer Institution for Additive Manufacturing Technologies IAPT.

Caracteristici

Analyses the effect of the laser beam profile on SLM process Describes the effect of the laser beam profile on the process stability and feasible productivity of the SLM process Discover the benefits in terms of manufacturing costs and time that are offered by an optimized laser beam profile