Recent Project

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 StructE was engaged to design of Carbon Fibre Reinforced Polymer (CFRP) strengthening system to a concrete silo wall prior to the creation of a new opening. By bonding these high-tensile carbon fibre plates and rods to the substrate, the design effectively redistributed structural loads and reinforced the surrounding area using Near Surface Mounted and Externally Bonded CFRP. This critical pre-strengthening phase ensures the integrity of the silo remains uncompromised during the concrete cutting process, providing a non-intrusive, high-strength solution for complex industrial modifications.

 StructE  completed a comprehensive structural assessment of steel structures, focusing on the safety and compliance of industrial gas bottle storage systems and steel storage racks. Our team conducted detailed site measurements and developed precise CAD models to evaluate the load capacity of various cage designs. By verifying structural adequacy and providing updated standard designs for future use, we ensured that our client’s infrastructure meets the highest safety requirements for high-pressure equipment storage.   

 StructE was engaged to assess and certify an existing cold-formed steel shed for a significant solar array installation. To manage the additional dead load, we engineered a strategic strengthening solution involving the installation of intermediate portal frames. This approach successfully increased the roof's structural capacity while maintaining the existing form and minimizing disruption to the building's operations. 

 StructE conducted a forensic structural audit and design a compliance roadmap for this unique multi-storey container residence. Our assessment identified critical areas for improvement, including lateral stability, corrosion mitigation, and subfloor drainage. Detailed design was prepared to bring the residence to full compliance.

 StructE conducted a structural forensic investigation on this heritage-listed weatherboard property. Our assessment identified major strucutral defects, including  differential settlement, advanced timber rot, and hazardous material contamination. We provided the client with a detailed risk-benefit analysis, outlining pathways for either a comprehensive structural "strip-out" and remediation or a full demolition and rebuild to meet current Australian Standards. 

 StructE was engaged to conduct a comprehensive structural inspection of this residential property following the appearance of severe cracking. Our assessment determined the walls to be structurally compromised and immediate rebuild was deemed critical. We provided complete structural design for the reinstatement of the wall and roof sections, including a detailed design for necessary temporary support during the reconstruction phase. 

 StructE was engaged to provide a structural design for a series of retaining walls ranging in height from 1.0m to 2.2m. To ensure maximum cost-efficiency and performance, the engineering analysis accounted for varying soil conditions across the site, allowing for a highly optimised design. This involved the strategic selection of varied steel post sections, reinforced concrete columns, and tailored pile depths, ensuring a robust solution that balances structural integrity with material economy. 

 StructE was engaged to engineer a high-performance structural framework and footing system for this modular timber-framed residence. Our design utilised a rigid steel skid foundation to facilitate site-specific installation while maintaining structural integrity during transit.  

 StructE  conducted a comprehensive structural forensic assessment of a weatherboard residence in Wedderburn following significant flood events. The inspection focused on evaluating the integrity of the subfloor system, specifically documenting concrete stump deterioration, reactive soil movement, and differential settlement across the building footprint. By correlating high-precision floor level surveys with observed internal framing distress, a detailed remediation strategy was developed to restore the building.