Burj Khalifa Autocad Plan __link__ May 2026

This is the kind of content that fascinates architects and engineers:

1. The Hexagonal Buttressed Core

• Walls: 0.6m to 1.2m thick reinforced concrete.
• Ducts: Centralized vertical transportation (57 elevators + 8 escalators).
• Outrigger walls: Connecting the core to the perimeter columns every 20–30 floors.

2. Non-Orthogonal Geometry

Most architectural plans rely on orthographic projection. The Burj Khalifa’s rotating, non-rectilinear geometry means that floor plans at level 80 bear little resemblance to level 30. Each floor plate is unique. burj khalifa autocad plan

Step 1: Set Up the Base Geometry

• Start with a Polygon (3 sides) inscribed in a circle of radius 50m.
• Convert to a polyline and Fillet the corners (fillet radius = 5m) to soften the wing tips.

Step 3: Polar Array the Wings

• Select one wing + core segment.
• Type ARRAYPOLAR → Center at 0,0 → Items = 3 → Angle = 360°.
• This gives you the entire ground floor plan.

This is the kind of content that fascinates architects and engineers:

1. The Hexagonal Buttressed Core

• Walls: 0.6m to 1.2m thick reinforced concrete.
• Ducts: Centralized vertical transportation (57 elevators + 8 escalators).
• Outrigger walls: Connecting the core to the perimeter columns every 20–30 floors.

2. Non-Orthogonal Geometry

Most architectural plans rely on orthographic projection. The Burj Khalifa’s rotating, non-rectilinear geometry means that floor plans at level 80 bear little resemblance to level 30. Each floor plate is unique.

Step 1: Set Up the Base Geometry

• Start with a Polygon (3 sides) inscribed in a circle of radius 50m.
• Convert to a polyline and Fillet the corners (fillet radius = 5m) to soften the wing tips.

Step 3: Polar Array the Wings

• Select one wing + core segment.
• Type ARRAYPOLAR → Center at 0,0 → Items = 3 → Angle = 360°.
• This gives you the entire ground floor plan.