Fraunhofer-Gesellschaft

Publica

Hier finden Sie wissenschaftliche Publikationen aus den Fraunhofer-Instituten.

Design for additive manufacturing. Guidelines and case studies for metal applications

Presentation held at The Cutting Edge, CMTS 2017, Canadian Manufacturing Technology Show, Toronto, 25 - 28 September 2017
Konstruktion für die Generative Fertigung. Richtlinien und Fallbeispiele metallischer Anwendungsfälle
 
: Müller, Bernhard; Schnabel, Torsten; Oettel, Markus; Töppel, Thomas; Gebauer, Mathias; Klöden, Burkhardt; Aumund-Kopp, Claus; Hoschke, Klaus; Pfaff, Aron

:
Präsentation urn:nbn:de:0011-n-4800000 (1.9 MByte PDF)
MD5 Fingerprint: b178787d555f779e0ae6bc34d4960dcb
Erstellt am: 10.1.2018


2017, 32 Folien
Canadian Manufacturing Technology Show (CMTS) <2017, Toronto>
Englisch
Vortrag, Elektronische Publikation
Fraunhofer IWU ()
Fraunhofer IFAM ()
Fraunhofer EMI ()
additive manufacturing; 3D printing; design; topology optimization; light weight design; functional design; design for function; powder bed fusion; aerospace aluminium; design guideline; laser beam melting; LBM; selective laser melting; SLM; electron beam melting; EBM; design optimisation; material characterisation

Abstract
Additive Manufacturing (AM), often simply called 3D printing, provides nearly unrestricted freedom to design parts in order to optimize their functionality. It offers designers and manufacturers the ability to produce shapes and designs that would be impossible to produce using conventional manufacturing technologies such as moulding or machining. Optimizing the design of parts can be achieved by reducing their weight, incorporating internal features or reducing the need for assembling separate components. AM also offers the opportunity to reduce or eliminate waste that results from manufacturing, and to reduce the need for warehousing while enhancing the value of local production. The efficient use of AM technologies requires a rethinking in 3D design, which currently still poses a barrier particularly for small and medium-sized enterprises (SMEs) of metal industry. Advantages and opportunities as well as restrictions of additive manufacturing must be well known in order to pave the way for a successful commercialisation and to make AM a competitive manufacturing method. The presentation summarizes a study on "DESIGN FOR ADDITIVE MANUFACTURING - Guidelines and Case Studies for Metal Applications" and is based on seven components, which were developed and manufactured in the scope of separate projects, but have been selected, reviewed and assessed in a detailed case study particularly and retrospectively within this task. The design of each component was tailored to the specific needs of the chosen AM technology. The development and manufacturing activities were performed by Fraunhofer Institutes, who are members of the Fraunhofer Additive Manufacturing Alliance. The alliance integrates seventeen Fraunhofer Institutes across Germany, which deal with subjects concerning additive manufacturing and represent the entire process chain including the development, application and implementation of additive production processes as well as associated materials. The presentation identifies leading edge industrial applications and trends associated with the design for additive manufacturing and limitations related to current AM technologies. The evaluation of the seven case studies highlights general design principles to take best advantage of the powder bed based additive manufacturing techniques Laser Beam Melting (LBM) and Electron Beam Melting (EBM). Moreover, the design optimisation and material characterisation are analysed. Finally, there are given overall conclusions with focus on AM-specific design optimisation, main flaws and weaknesses of the considered metal AM processes as well as aspects of AM commercialisation.

: http://publica.fraunhofer.de/dokumente/N-480000.html