AbdullahEl Sabea
Validated computational design for lattice structures that need to be simulated, printed, and tested.
I develop validated computational design workflows for additively manufactured lattice structures, combining FEA, fatigue testing, AI optimization, and product-oriented engineering.
What
Validated computational workflows for AM lattice structures.
For
Research groups, product teams, labs, and engineering partners.
Next
Explore GLADE, review research work, or start a collaboration.

Portfolio signal
For AM researchers, product teams, labs, and engineering partners
Working across TPMS lattices, FEA, fatigue, AI optimization, and product handoff
Explore GLADE, review the research work, or start a collaboration
Who I am and where I've worked
01 / 04
Operating thesis
Build · prove · scale
From research geometry to validated mechanical value
01 / Build
Printed systems
Topology · TPMS · AM-ready geometry
02 / Prove
Measured performance
FEA · fatigue · thermal · validation
03 / Scale
Toolchain value
Automation · AI workflows · GLADE
Portfolio for collaborators, research labs, engineering teams, and partners backing computational AM workflows
GLADE in active build

Positioning
Mechanical design for research-grade printed systems
AM research · topology optimization · TPMS lattices · simulation · AI workflows · GLADE active build
01
Applied engineering across Dubai · Beirut · Nur Sultan
02
Research path through Gdańsk · Leuven · Opole
03
CAD · Python · FEA · CFD · AI tools · validation first
Physics-led design
Modeling tied to proof
AI workflows with validation
Atlas of reach
Where the work has been done, and where the conversations go.
Plate · IX / IX
Solid arcs mark cities where the engineering has actually happened. Dashed arcs mark the business-development reach: clients and partners from the Far East to Silicon Valley. The hub is Opole, where the PhD is being written.

