Ali, Ahmed Mohamed Jubartalla

Gföhler, Margit

Riemelmoser, Franz

Kapl, Mario

Brandstötter, Mathias

2023-10-10T06:29:10Z

2023-10-10T06:29:10Z

2023-09

<div class="csl-bib-body"> <div class="csl-entry">Ali, A. M. J., Gföhler, M., Riemelmoser, F., Kapl, M., &#38; Brandstötter, M. (2023, September). <i>Development of 3D printed adaptive structures for lower limb prostheses shafts</i> [Poster Presentation]. 10th GACM Colloquium  on Computational Mechanics from Young Scientists from Academia and Industry 2023, Wien, Austria. http://hdl.handle.net/20.500.12708/188843</div> </div>

http://hdl.handle.net/20.500.12708/188843

With an aim to fill the gaps in the current 3D‐printing technology to digitally fabricate medical assistive devices with significant user benefit, well‐being, and availability; we develop a design methodology that enables the optimization of lightweight multi-material lattice structures in order to enhance the design of prostheses and rehabilitation devices. This is done by firstly developing a suitable multi-variable mathematical model for topology optimization of two-scale structures and secondly demonstrating it on an outer shaft of prostheses (lower limb prostheses shaft). We develop a two-scale gradient-based optimization algorithm procedure of multiple design variables that generates functionally graded structures having excellent performance. Our design methodology employs three families of predefined micro-structures that share similar geometric features. Those two additional families thwart the convergence of our gradient-based algorithm to the global minima and we aim at presenting a computational framework that enhances multi-variable optimizations by avoiding the unfavorable local minima.

en

Topology optimization

Multi-scale structures

Multiple Design variables

Development of 3D printed adaptive structures for lower limb prostheses shafts

Presentation

Vortrag

Carinthia University of Applied Sciences, Austria

Carinthia University of Applied Sciences, Austria

Carinthia University of Applied Sciences, Austria

Carinthia University of Applied Sciences, Austria

Poster Presentation

C6

M4

C3

Modeling and Simulation

Non-metallic Materials

Computational System Design

30

30

40

https://colloquia.gacm.de/program/program

E307-03 - Forschungsbereich Biomechanik und Rehabilitationstechnik

E307 - Institut für Konstruktionswissenschaften und Produktentwicklung

0000-0002-8977-8702

0000-0003-1556-9059

0000-0001-8153-5987

0000-0001-9544-2626

10th GACM Colloquium on Computational Mechanics from Young Scientists from Academia and Industry 2023

10-09-2023

13-09-2023

On Site

Event for scientific audience

Wien

AT

Ali, Ahmed Mohamed Jubartalla

Medizintechnik

Maschinenbau

Informatik

2060

2030

1020

20

60

20

en

none

Publications

conference poster not in proceedings

http://purl.org/coar/resource_type/c_18co

no Fulltext

Carinthia University of Applied Sciences

E307-03 - Forschungsbereich Biomechanik und Rehabilitationstechnik

Carinthia University of Applied Sciences

Carinthia University of Applied Sciences

Carinthia University of Applied Sciences

0000-0002-8977-8702

0000-0001-8153-5987

0000-0001-9544-2626

E307 - Institut für Konstruktionswissenschaften und Produktentwicklung