TY - JOUR
T1 - Improving the manufacturability of metal AM parts
AU - Sinico, Mirko
AU - Ranjan, Rajit
AU - Moshiri, Mandana
AU - Ayas, Can
AU - Langelaar, Matthijs
AU - van Keulen, Fred
AU - Dewulf, Wim
AU - Witvrouw, Ann
PY - 2019
Y1 - 2019
N2 - Numerous challenges of additive manufacturing (AM) are tackled in the European Horizon 2020 project PAM^2 by studying and linking every step of the AM process cycle. For example, PAM^2 researchers from the design, processing and application side have collaborated in this work to optimise the manufacturability of metal AM parts using an improved Topology Optimisation (TO) approach, including a thermal constraint. Additionally, the project is focusing on modelling, post-processing, in- and post-process quality control and industrial assessment of AM parts, with the aim of moving beyond the state-of-the-art of precision metal AM.
AB - Numerous challenges of additive manufacturing (AM) are tackled in the European Horizon 2020 project PAM^2 by studying and linking every step of the AM process cycle. For example, PAM^2 researchers from the design, processing and application side have collaborated in this work to optimise the manufacturability of metal AM parts using an improved Topology Optimisation (TO) approach, including a thermal constraint. Additionally, the project is focusing on modelling, post-processing, in- and post-process quality control and industrial assessment of AM parts, with the aim of moving beyond the state-of-the-art of precision metal AM.
UR - https://www.dspe.nl/mikroniek/
M3 - Article
SN - 0026-3699
VL - 2019
SP - 23
EP - 28
JO - Mikroniek: vakblad voor precisie-technologie
JF - Mikroniek: vakblad voor precisie-technologie
IS - 5
ER -