TY - GEN
T1 - End-to-end bioinspired lightweight structure manufacturing-oriented design, validation, and manufacturing with advanced methods
AU - Blanc, Ignacio Laraudogoitia
AU - De Cortazar, Maider Garcia
AU - Mata, Franck Girot
N1 - Publisher Copyright:
© 2023 Trans Tech Publications Ltd, Switzerland.
PY - 2023
Y1 - 2023
N2 - It is known that natural designs are more efficient and functionality-aimed than human designs. Historically, human beings have tried to mimic the way nature designs or the natural designs themselves. However, it turned out that it was usually too complex for the technology of the time. Today there exists the opportunity to mimic most natural designs due to advances in computational power and improvements in manufacturing methods. This can lead to a major weight reduction in the metallic components used, which is a key aspect in many engineering areas such as aerospace, automotive or energetic industries. This study shows how these bioinspired designs can improve designer experience-based designs in several ways i.e.: Mechanical behavior, part number reduction, weight reduction, etc. The components analyzed here will be metallic based on aluminum. It will be also shown the significance of the manufacturing-oriented design so the iteration times are reduced between the CAD and the CAM or the reduction of prototype manufacturing itself. Of course, these designs need to be validated mechanically via CAE and the CAM will also be used to avoid uncertainty during advanced manufacturing processes. Finally, the results of the real manufacturing process are going to be shown so the end-to-end cycle is complete.
AB - It is known that natural designs are more efficient and functionality-aimed than human designs. Historically, human beings have tried to mimic the way nature designs or the natural designs themselves. However, it turned out that it was usually too complex for the technology of the time. Today there exists the opportunity to mimic most natural designs due to advances in computational power and improvements in manufacturing methods. This can lead to a major weight reduction in the metallic components used, which is a key aspect in many engineering areas such as aerospace, automotive or energetic industries. This study shows how these bioinspired designs can improve designer experience-based designs in several ways i.e.: Mechanical behavior, part number reduction, weight reduction, etc. The components analyzed here will be metallic based on aluminum. It will be also shown the significance of the manufacturing-oriented design so the iteration times are reduced between the CAD and the CAM or the reduction of prototype manufacturing itself. Of course, these designs need to be validated mechanically via CAE and the CAM will also be used to avoid uncertainty during advanced manufacturing processes. Finally, the results of the real manufacturing process are going to be shown so the end-to-end cycle is complete.
KW - Bioinspired
KW - Digital Manufacturing
KW - Lightweight
UR - http://www.scopus.com/inward/record.url?scp=85175155768&partnerID=8YFLogxK
U2 - 10.4028/p-cQyx0U
DO - 10.4028/p-cQyx0U
M3 - Conference contribution
AN - SCOPUS:85175155768
SN - 9783036404240
T3 - Advances in Science and Technology
SP - 310
EP - 319
BT - Selected peer-reviewed full text papers from the 10th Manufacturing Engineering Society International Conference, MESIC 2023
A2 - Morales-Palma, Domingo
A2 - Martínez-Donaire, Andrés J.
A2 - Borrego, Marcos
A2 - Centeno, Gabriel
A2 - Vallellano, Carpóforo
PB - Trans Tech Publications Ltd
T2 - 10th Manufacturing Engineering Society International Conference, MESIC 2023
Y2 - 28 June 2023 through 30 June 2023
ER -