Finite Element Analysis & Sizing

Structural Design & Analysis

Engineering Structural Integrity

Our structural engineering division is tasked with ensuring safety, stability, and efficiency. We run rigorous computational simulations to test foundations, columns, beams, and slabs under extreme loads. Whether evaluating wind vortex vectors on high-rises or modeling non-linear seismic behavior on arch bridges, we design systems that exceed regulatory code requirements.

By linking finite element modeling (FEM) with architectural layout configurations, we optimize concrete and steel ratios. This data-driven sizing prevents over-reinforced zones, saving materials while maintaining absolute structural capacity limits.

18%
Concrete Saved
0.02mm
Lateral Tolerance
ANSYS
FEA Solver

Our Execution Methodology

01

Mesh Generation & Boundary Mapping

Constructing localized volumetric discretization blocks and constraining joints against foundational anchors using advanced solid mesh equations.

02

Multi-Scenario Wind Vortex Modeling

Simulating high-velocity cross-wind profiles and dynamic shear stresses at variable architectural elevations to evaluate structural resonance.

03

Non-Linear Time-History Solvers

Applying real-world earthquake acceleration waves to model stress responses and size optimal tuned mass dampers and bracing arrays.

04

Optimized Member Dimension Sizing

Iteratively running design algorithms to optimize steel reinforcement ratios and reduce structural mass without compromising safety limits.

"Using advanced FEA dynamic models on the Marina Skytower, we optimized structural steel sizing, cutting concrete raw-material costs by 18% while guaranteeing rigidity in 120-mph wind conditions."

Core Workflows & Deliverables

  • Finite Element Sizing: Detailed structural member stress-gradient simulations.
  • Wind Vector Analysis: Aerodynamic simulations testing dynamic torsion forces on skyscraper facades.
  • Seismic Time-History Audits: Simulating dynamic earthquake vibration vectors to design damping networks.
  • Slab Span Optimization: Sizing deflection profiles to minimize material weight ratios.

Technology & Software Stack

Our design tools combine industry FEA software with automated limit-state code checkers:

SAP2000
ETABS
ANSYS Mechanical
Tekla Structural Designer
SAFE (Slab Design)
STAAD.Pro

All Services

BIM Coordination Structural Analysis Digital Twins Project Management Site Supervision Cost & Feasibility MEP Engineering 3D Rendering & VR
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