Structural Engineering

We view structural engineering as the backbone of the built environment, encompassing the art and science of designing safe, resilient, and aesthetically pleasing structures. Whether it’s ensuring the stability of an industrial development or the intricate detailing of a historic renovation, we approach each project with an acute attention to detail. Our vast expertise lets us deliver innovative solutions tailored to your specific needs. At the heart of our practice lies a passion for creating spaces that inspire and endure, with a focus on lean design.

INDUSTRIAL AND LOGISTICS SPECIALISTS

CRC specialises in designing industrial and logistics-related structures and buildings. We focus on creating efficient facilities that minimise costs and maximise space, from warehouses and distribution centers to manufacturing plants. By working closely with architects, contractors, and clients, we make sure that each project meets specific operational needs and Australian industry standards. Within our industrial specialty, we focus on:

STRUCTURAL FIRE ENGINEERING

At CRC, we are able to develop structural fire engineering solutions by combining our deep understanding of heat transfer and thermodynamics with our experience in the field of structural engineering. With experience in both fire safety and structural engineering, our team can assess the thermal load effects of fire on structures and develop practical fire resistant designs. CRC structural fire engineering benefits:

COMMERCIAL

Our portfolio includes a diverse array of community and commercial projects all with different performance requirements, materiality and construction methods. Whether it’s designing durable infrastructure for seniors or creating dynamic learning environments for students, our team prioritises the building performance and spatial requirements to deliver high quality structures that benefit the broader community.

We boast an array of successful projects within the following sectors:

RESIDENTIAL

CRC provides a full range of engineering services for residential projects, where we’ve demonstrated proficiency both in engineering for new builds and in providing remedial solutions for existing properties. We can assist with all residential dwellings including multi-story residential developments, town-houses, and duplexes. In crafting innovative designs for new residential developments or addressing structural issues in older buildings, we bring our experience and technical knowledge to every project. From detailed design, foundation assessments, and structural repairs to waterproofing solutions and building envelope enhancements, we are committed to ensuring the safety, functionality, and longevity of all residential properties.

SPECIALISED CONSULTING, ASSESSMENTS, & REPORTING

We go beyond conventional engineering services by offering comprehensive assessment, reporting, and litigation support. Our team conducts thorough assessments to evaluate the structural integrity, performance, and compliance of engineering works. We examine each aspect of a project to ensure that it meets the highest standards of safety, quality, and regulatory compliance.

Structural engineering assesments
Engineering advice for building change of use
Due dilligence reports
Strengthening of structures
Assessment of additional loads
Wall removals and other structural adjustments

Structural & BIM Modelling

One of our many unique features is our in-house drafting team. Working with an in-house drafting team allows us (and you) a variety of benefits.

Featured Projects

Multi-Level

Portal, Matraville

Commercial

Elara Village, Marsden Park

High Bay

Coles Distribution Centres, NSW & QLD

Multi-Level

Ascent on Bourke, Alexandria

Industrial

Oakdale Industrial Estates, Western Sydney

Industrial

Device Technologies, SBP

When do I need to engage a structural engineer?

At CRC we believe that engineers should be involved in projects from the preliminary design phase, including involvement in the pre-development phase of the project. Early involvement allows us to help shape solutions which best align with the project goals and objectives. We can help define and understanding the building performance requirements and ensure that these can be realised throughout the project. Engaging us early provides more opportunities to drive down construction costs, reduce the project’s embodied carbon, and work collaboratively with the architect, developer, and other consultants. This approach enables us to guide material choices and construction methods, ensuring a cohesive, efficient design from the outset.

Engaging a structural engineer as early as possible means we can help set your project up for success from the get-go.

What is seismic design, and why is it important for industrial structures?

Seismic design in engineering allows buildings to withstand seismic activity from earthquakes. In industrial structures, seismic design is crucial to protect the machinery and materials housed in these facilities. Proper design reduces the risk of structural failure during an earthquake, keeping both personnel and operations safe. It also helps minimise downtime, allowing facilities to resume functioning quickly after a seismic event.

Seismic design is required by Australian building codes, and is considered on all projects during the design phase.

Can structural engineers help optimise costs during project development?

The CRC ethos (build less, lean design) not only ensures that we keep sustainability front of mind, but it means that we’re always looking for ways to reduce material costs, which drives down prices. We make informed material decisions, as well as design efficient structural systems that minimise waste and reduce the need for unnecessary reinforcements.

Along with this, we believe in the importance of engaging a structural engineer from the preliminary design phase to start having important conversations about material usage and value engineering opportunities. Further, on reviewing early documentation we can anticipate and address potential challenges early in the design phase, helping to prevent costly modifications during construction.

What types of materials are commonly used in commercial and industrial structures?

Several materials are common in commercial and industrial structures, with various strengths, durability, and suitability for the specific building needs. CRC has the engineering capacity and knowledge to design and work with all building materials, with the predominant builder choices being steel, concrete and timber.

Steel: Steel is ideal for large frames, industrial structures, buildings that require open and flexible spaces, and projects where speed of construction is critical. CRC engineers are experts at working with both domestic and imported steel for commercial, and industrial and logistics facilities.
Concrete: Concrete is the most widely used construction material worldwide. We design with concrete in foundations, suspended floor structures, specialised ground floor slabs, walls, truck circulation areas and external hardstand areas. We can design with concrete in all its forms including conventionally reinforced concrete, pre-and post-tensioned concrete, fibre-reinforced concrete, and even mass-concrete where suitable. Many builders are opting for pre-cast concrete to speed up the construction process where feasible and the building performance requirements allows.
Timber: Timber is less common in large-scale industrial and commercial structures due it’s strength and stiffness limitations when compared to steel and timber, however, is used often in throughout residential and commercial buildings, or as a feature in industrial office spaces. As we all work toward a more sustainable future, engineered wood products like cross-laminated timber, which overcome many of the challenges with natural wood products, are becoming more popular for their sustainability and strength.

Are you involved in renovations or retrofitting of existing industrial buildings?

CRC is actively involved in the renovation and retrofitting of existing buildings and are experts in assessing the capacity of an existing structure. Whether you have concerns regarding structural capacity or failures, want to change the building use, or retrofit a structure – we can assist. We can assess the structural integrity of the building while adapting it to meet modern standards or your new requirements. Through various assessments we can identify areas that require strengthening, design modifications to meet your new requirements, or areas that require no construction changes at all (win-win!).

In our journey to net zero, we focus on adaptive reuse as part of our commitment to sustainability. This process repurposes old buildings for new uses, reducing the need for new construction. We can also work with you and your consultants to integrate energy-efficient systems (e.g. solar panels and insulation) into the retrofitting process, without compromising the building’s structure. By prioritising both sustainability and safety, we can extend the life of buildings. Remember, building nothing is not doing nothing.

How long does it take to design the structural framework for a large-scale commercial or industrial project?

Designing the structural framework for a large-scale commercial or industrial project depends on several factors but can typically take between 2 to 6 months. The complexity of the project plays a major role with larger or more intricate designs naturally requiring more time. Preliminary site assessments and approvals, which involve coordinating with architects and other stakeholders, also impact the timeline.

Compliance with local building codes and regulations can add to the project duration, especially in areas with strict requirements. Client revisions or changes to the project scope can also extend the timeline, but ultimately, each project is different. Get in touch with your scope for a more detailed timeline of your project.