Precast high-rise building under construction with scaffold and tower crane under blue sky

Precast Apartment – Concept Structural Design (Australia)

This concept explores a structural solution for a high-density residential apartment building using a precast concrete podium slab system. The design approach focuses on streamlining council approval pathways, aligning with NCC compliance requirements, and incorporating seismic and structural resilience for long-term performance.
Modular Structural System – Cyclonic Region (Queensland, Australia)

Modular Structural System – Cyclonic Region (Queensland, Australia)

Lead Engineering Consultants provided full structural engineering services for this modular project in North Queensland’s cyclonic region.

The modular system was engineered to withstand Region C cyclonic conditions. Prefabrication in a controlled environment allowed for rapid site installation, reduced disruption, and long-term durability.

Foundation & Slab Design – Concept for Industrial Warehouse (Australia)

This concept explores structural base-build solutions for a large tilt-up concrete panel warehouse. The approach incorporates slab-on-grade design, foundation systems, and load path development, with an emphasis on constructability, durability, and efficient delivery. The concept aligns with NCC compliance pathways for future industrial facilities.

Titan Industrial Facility

Industrial Facility – Concept Structural Design (Australia)

This capability project showcases Lead Engineering’s expertise in structural solutions for large-scale industrial facilities such as long-span warehouses and logistics hubs. Our approach prioritises seismic resilience, efficient load paths, and long-term durability, delivering robust and adaptable structures that support demanding industrial operations.

Commercial Logistics Hub – Concept Structural Design (Australia)

This concept design demonstrates how precast concrete panels can be applied to large logistics and warehousing facilities for speed, durability, and long-term efficiency. The design approach prioritises load-bearing efficiency, seismic resilience, and reduced on-site labour, supporting faster occupancy and minimal maintenance.