Category: CAD & 3D Modelling

CAD & 3D Modelling

CAD & 3D Modelling focuses on creating clear, accurate drawings and digital models that help projects move from concept to construction with confidence.

This category covers how 2D drawings and 3D CAD models are developed from design information, site measurements, and reality capture data to support engineering design, fabrication, construction, and asset upgrades. Topics include scan-to-CAD workflows, SolidWorks modelling, as-built drawings, and fabrication-ready documentation.

Articles explain how well-structured CAD models improve coordination between disciplines, reduce errors on site, and ensure designs reflect real-world conditions, particularly on existing facilities and brownfield sites. The emphasis is on practical outcomes, not just visual presentation.

Content is written for engineers, builders, fabricators, and asset owners who rely on accurate, well-organised drawings and models to make informed decisions and deliver reliable project outcomes.

Posted on

Hunter Valley Laser Scanning | CAD-Ready SolidWorks & Inventor

Engineering-grade LiDAR scanning of a dragline at a Hunter Valley mine producing CAD-ready data for SolidWorks and Autodesk Inventor

Hunter Valley Laser Scanning | CAD-Ready SolidWorks & Inventor

Engineering-Grade 3D & LiDAR Scanning Built for SolidWorks & Autodesk Inventor

The Hunter Valley is home to critical mining, power generation, manufacturing, and heavy-industry assets. In these environments, laser scanning is only valuable if the data can be used directly in engineering design software.

At Hamilton By Design, we deliver Hunter Valley laser scanning services that are purpose-built for engineering workflows โ€” ensuring scan data can be reliably used in SolidWorks and Autodesk Inventor without rework, approximation, or loss of accuracy.

Why โ€œScan-Onlyโ€ Data Is a Problem

Many laser scanning services focus on data capture only. While the point cloud may look impressive, it often fails at the most important step:

Can the scan be used directly in CAD and engineering design?

If the answer is no, the scan has limited value.

Common issues with low-grade or technician-only scanning include:

  • Point clouds that are not registered or scaled correctly
  • Insufficient accuracy for mechanical design tolerances
  • Poor alignment to real-world coordinate systems
  • Data that cannot be reliably modelled in SolidWorks or Inventor
  • Extra time and cost spent โ€œfixingโ€ scan data before design can begin

Why would you spend money on a scan that cannot be used for engineering?

Engineer performing engineering-grade laser scanning of a dragline excavator at a Hunter Valley mine for SolidWorks and Autodesk Inventor design

Engineering-Grade Laser Scanning โ€” Designed for CAD Use

Hamilton By Design approaches laser scanning as an engineering input, not a visual deliverable.

Our Hunter Valley laser scanning services are planned and executed so that scan data can be:

  • Used directly in SolidWorks
  • Imported and referenced accurately in Autodesk Inventor
  • Modelled into fabrication-ready geometry
  • Trusted for mechanical, structural, and layout decisions

This means the scan is not the end product โ€” it is the foundation for engineering and design.

Why Scanner Capability Matters

Not all scanners โ€” or scanning providers โ€” are equal.

Low-accuracy or inappropriate scanning equipment can result in:

  • Global accuracy drift
  • Poor definition of critical interfaces
  • Inability to confidently model mating parts, pipework, or steelwork
  • Designs that โ€œlook rightโ€ on screen but fail on site

Hamilton By Design uses engineering-grade scanning equipment and workflows, ensuring the captured data supports:

  • Mechanical equipment upgrades
  • Structural modifications
  • Conveyor, chute, and platform design
  • Fabrication and installation planning

Hunter Valley Applications Where CAD-Ready Scans Matter

Mining & CHPP Upgrades

Laser scanning of conveyors, transfer stations, chutes, and structures that must integrate precisely with new mechanical equipment.

Power Generation & Utilities

Accurate capture of plant rooms, pipework, platforms, and access systems for compliance and upgrade works.

Manufacturing & Heavy Industry

Reliable spatial data to support machinery installation, relocation, and layout optimisation.

Brownfield Construction & Retrofits

Engineering-grade scans to avoid clashes, rework, and costly shutdown overruns.

Engineer-Led Scanning โ€” Not Just Data Capture

At Hamilton By Design, laser scanning is delivered by engineers who understand how the data will be used.

This ensures:

  • Scan resolution and accuracy are matched to design intent
  • Critical interfaces are captured correctly
  • Data integrates seamlessly with CAD workflows
  • Accountability is maintained from scan through to design and documentation

You donโ€™t just receive a point cloud โ€” you receive usable engineering data.

Deliverables That Engineers Can Actually Use

Depending on your project, we provide:

  • Registered, engineering-grade point clouds
  • CAD-ready reference data for SolidWorks and Inventor
  • Section views and alignment references
  • Models and drawings derived directly from scan data
  • Documentation suitable for fabrication and construction

Everything is scoped so the scan adds value immediately, not later after rework.

Hunter Valley Laser Scanning โ€” Designed to Be Used, Not Admired

Laser scanning should remove uncertainty, not create more work.

By ensuring scan data can be used directly in SolidWorks and Autodesk Inventor, Hamilton By Design helps Hunter Valley projects move from site capture to design, fabrication, and installation with confidence.

Hamilton By Design delivers engineering-grade laser scanning in the Hunter Valley โ€” built for real engineering outcomes, not just visualisation.

Contact us to discuss your Hunter Valley laser scanning requirements or arrange an engineering-led site scan.

Name
Would you like us to arrange a phone consultation for you?
Address
Hunter Valley Laser Scanning: Transforming Engineering Accuracy Across Mining, Manufacturing and Infrastructure
Newcastle & The Hunter Valley
Laser Scanning Hunter Valley: Delivering Engineering-Grade Accuracy for Mining, Manufacturing and Industrial Projects
Posted on

Detailing Transfer Stations in the Age of Digital Engineering

Transfer stations and chutes sit at the intersection of bulk materials handling, structural engineering, and fabrication practicality. While the fundamentals of good detailing have not changed, the way engineers now capture, coordinate, and validate these details has evolved significantly over the past decade.

This article revisits the principles of transfer station detailing and places them in a modern digital-engineering context, where accurate site data, constructability, and lifecycle performance are critical.

Engineering illustration of a transfer chute showing a LiDAR point cloud overlay aligned with the same chute geometry for as-built verification.

Why Transfer Station Detailing Still Matters

Poorly detailed transfer stations remain one of the most common sources of:

  • Material spillage and dust generation
  • Accelerated liner and structure wear
  • Unplanned downtime and maintenance escalation
  • Safety risks to operators and maintainers

In many cases, the root cause is not the concept design, but inadequate detailing and incomplete understanding of site geometry.

Even well-intended designs can fail if:

  • Existing structures are misrepresented
  • Conveyor interfaces are assumed rather than measured
  • Fabrication tolerances are not realistically achievable on site

The Shift from Assumed Geometry to Measured Reality

Historically, detailing relied heavily on:

  • Legacy drawings
  • Manual tape measurements
  • Partial site surveys
  • โ€œBest guessโ€ alignment assumptions

Today, engineering-grade reality capture has fundamentally changed what is possible.

Using 3D laser scanning (LiDAR), engineers can now work from:

  • Millimetre-accurate point clouds
  • Verified conveyor centre lines
  • True chute-to-structure interfaces
  • Real as-installed conditions rather than design intent

This shift dramatically reduces site rework and fabrication clashes.

This approach is central to how Hamilton By Design supports bulk materials handling upgrades across mining, ports, and heavy industry.

Detailing Considerations That Still Get Missed

Even with modern tools, certain detailing fundamentals remain critical.

1. Interface Accuracy

Transfer stations often interface with:

  • Existing conveyors
  • Walkways and access platforms
  • Structural steelwork installed decades earlier

Without accurate as-built data, small errors compound quickly. Laser scanning eliminates this uncertainty.

Related reading:
https://www.hamiltonbydesign.com.au/3d-laser-scanning-engineering/

2. Wear Liner Integration

Good detailing must account for:

  • Liner thickness variation
  • Fixing access and replacement paths
  • Load paths through liners into structure

Digitally modelling liners within the chute geometry allows engineers to validate:

  • Clearances
  • Installation sequence
  • Maintenance access before steel is cut

3. Fabrication Reality

A detail that looks acceptable in 2D can become problematic when fabricated.

Modern workflows now link:

  • 3D scanning
  • Solid modelling
  • Fabrication drawings
  • Digital QA checks

This reduces site modifications and ensures components fit first time.

Example of fabrication-ready workflows:
https://www.hamiltonbydesign.com.au/mechanical-engineering-design-services/

Transfer Stations as Systems, Not Isolated Chutes

A key lesson reinforced over time is that transfer stations must be treated as systems, not standalone components.

Good detailing considers:

  • Upstream and downstream belt tracking
  • Material trajectory consistency
  • Structural vibration and dynamic loading
  • Maintenance access under real operating conditions

Digital engineering allows these interactions to be reviewed early, reducing operational risk.

The Role of Engineering-Led Scanning

Not all scans are equal.

For engineering applications, scanning must be:

  • Performed with known accuracy
  • Registered and verified correctly
  • Interpreted by engineers, not just technicians

This distinction matters when designs are used for fabrication and compliance.

Hamilton By Designโ€™s approach combines engineering-led LiDAR scanning with mechanical design, ensuring the data collected is suitable for real engineering decisions.

Learn more:
https://www.hamiltonbydesign.com.au/engineering-led-3d-lidar-scanning/

Closing Thoughts

While detailing principles for transfer stations have stood the test of time, the tools and expectations have changed.

Modern projects demand:

  • Verified geometry
  • Fabrication-ready models
  • Reduced site risk
  • Higher confidence before steel is ordered

By integrating reality capture, detailed modelling, and constructability thinking, transfer station detailing can move from a risk point to a performance advantage.

Hamilton By Design logo displayed on a blue tilted rectangle with a grey gradient background

Our clients:

Name
Would you like us to arrange a phone consultation for you?
Address

Further Reading

Posted on

3D Construction Scan in Brisbane

Engineering-Grade Reality Capture for Live Construction Environments

Construction projects in Brisbane operate under conditions that place unique pressure on engineers, builders, and asset owners. Subtropical climate, flood-affected sites, reactive soils, dense CBD logistics, and a strong reliance on brownfield upgrades all increase one fundamental risk: designing and constructing from incorrect or outdated site information.

A 3D construction scan in Brisbane provides engineering-grade certainty by capturing what actually exists on site, enabling informed decisions during live construction, refurbishment, and staged delivery projects.

3D construction scanning in Brisbane using a FARO laser scanner at a building site overlooking the Story Bridge and Brisbane River

What Is a 3D Construction Scan?

A 3D construction scan uses high-accuracy LiDAR laser scanning to capture the true as-built condition of a site at a specific point in time. Unlike visual scans or phone-based capture, engineering-grade scanning produces registered point clouds that can be trusted for:

  • Construction coordination
  • Design verification
  • Clash detection
  • Fabrication-ready modelling
  • As-built documentation

Hamilton By Design delivers these outcomes through its engineering-led laser scanning services, where accuracy, downstream use, and construction risk are defined before scanning begins.


https://www.hamiltonbydesign.com.au/laser-scanning-engineering-brisbane-cbd/3d-scanning-brisbane/

Why Brisbane Construction Projects Require a Different Approach

Subtropical Climate & Structural Movement

Brisbaneโ€™s humidity and temperature cycles contribute to thermal expansion, contraction, and cumulative movement across steelwork, pipe runs, conveyors, faรงades, and plant installations.

When construction decisions rely on assumed geometry or legacy drawings, even small movements can result in:

  • Misaligned interfaces
  • Fabrication clashes
  • Installation delays

A 3D construction scan captures the current, in-situ geometry, allowing engineers to design and coordinate based on reality โ€” not historical intent.

Flood-Affected & Modified Assets

Many Brisbane sites โ€” particularly river-adjacent commercial and industrial facilities โ€” have undergone multiple flood recovery and modification cycles. Over time, this results in:

  • Changed floor levels
  • Unrecorded ramps and bunds
  • Altered drainage and gravity-dependent systems

Construction scanning establishes a true datum and elevation baseline, supporting engineering verification of falls, access clearances, and tie-in points.

This capability aligns directly with Hamilton By Designโ€™s broader reality capture and as-built verification workflows.


https://www.hamiltonbydesign.com.au/reality-capture-services/

Brownfield Construction Is the Norm

A significant proportion of Brisbane construction work occurs in live, operational environments, including:

  • Commercial refurbishments
  • Industrial plant upgrades
  • Infrastructure modifications
  • Asset life-extension projects

These sites often contain undocumented steelwork, legacy penetrations, and accumulated modifications. A 3D construction scan enables non-intrusive capture of this complexity, supporting engineering coordination without disrupting operations.

Tight CBD Logistics & Vertical Construction

Brisbaneโ€™s CBD presents unique logistical challenges:

  • Limited laydown space
  • Vertical risers and congested services zones
  • Restricted crane and hoist access
  • Staged installation sequencing

In these environments, components must fit first time. Construction scanning supports:

  • Early clash detection
  • Verification before fabrication
  • Confident off-site prefabrication

This process integrates directly with Hamilton By Designโ€™s 3D point cloud modelling and coordination services.

https://www.hamiltonbydesign.com.au/3d-point-cloud-modelling/

Reactive Soils & Differential Settlement

Reactive clay soils common throughout South-East Queensland contribute to long-term differential settlement, particularly where new construction interfaces with older structures. Over time, this can lead to:

  • Misaligned columns and beams
  • Drift in conveyors and pipe racks
  • Geometry that no longer matches design intent

A construction scan captures current condition, enabling engineers to design extensions and upgrades that reflect actual site geometry.

Construction Scanning vs Generic 3D Scanning

Not all scanning is suitable for construction engineering.

AspectGeneric ScanEngineering-Led Construction Scan
AccuracyVisual or indicativeMillimetre-grade
OutputMeshes or imagesRegistered point clouds
Engineering UseLimitedDesign & fabrication
Risk ReductionLowHigh
Construction ReadyNoYes

Hamilton By Design positions construction scanning as part of an integrated engineering workflow, not a standalone data capture exercise.


https://www.hamiltonbydesign.com.au/3d-engineering-services/

How 3D Construction Scans Are Used on Brisbane Projects

Engineering-grade construction scans are routinely used to support:

  • Clash detection across structure and services
  • Verification scans prior to fabrication
  • Construction sequencing and staging
  • As-built documentation for handover
  • Reduced RFIs, rework, and site delays

These outcomes are particularly valuable on commercial and construction projects where access, timing, and accuracy are critical.


https://www.hamiltonbydesign.com.au/commercial-construction-engineering/

3D laser scanning of a commercial building under construction showing as-built capture and coordination before wall closure

The Hamilton By Design Difference

Hamilton By Design delivers engineering-grade 3D construction scanning with a clear focus on constructability and downstream use.

Our approach combines:

  • Engineer-led scanning strategies
  • Defined accuracy requirements
  • Integration with mechanical and structural design
  • Outputs suitable for fabrication and installation

This approach ensures construction teams can rely on scan data with confidence โ€” especially on complex Brisbane projects.

When should a 3D Construction Scan Be Used?

A 3D construction scan in Brisbane is most valuable when:

  • Working in brownfield or live environments
  • Verifying conditions before fabrication
  • Coordinating multiple trades in tight spaces
  • Managing staged refurbishments
  • Reducing construction risk and uncertainty
Hamilton By Design logo displayed on a blue tilted rectangle with a grey gradient background

In Brisbane, construction risk is rarely driven by poor engineering.
It is driven by decisions made using incorrect or outdated information.

A 3D Construction Scan in Brisbane provides one critical advantage:
certainty about what actually exists on site, at the moment decisions are made.

Finite Element Analysis (FEA) engineering simulation button
3D LiDAR scanning and 3D modelling services button
Building and construction services button

Our clients:

Name
Would you like us to arrange a phone consultation for you?
Address
Posted on

From Reality to Results: How Hamilton By Design Delivers Engineering Success Through SolidWorks, Laser Scanning, and Intelligent Data Sharing

In complex engineering environments, success is rarely determined by a single calculation or drawing. It is determined by clarityโ€”clarity of information, clarity of intent, and clarity across every handover point between site, engineer, fabricator, and installer.

Hamilton By Design was created around this idea.

Across mining, heavy industry, infrastructure, and complex buildings, projects increasingly fail not because engineers lack capability, but because teams are working from incomplete, inconsistent, or unreliable information. Assumptions creep in. Measurements are approximated. Old drawings are trusted when they should not be. By the time fabrication or installation begins, risk has already been locked into the project.

Hamilton By Design approaches engineering differently. By combining engineer-led 3D laser scanning, SolidWorks-based mechanical design, and clear, practical data sharing, we reduce uncertainty at the very start of a projectโ€”and that single shift changes everything that follows.

Engineering begins with reality, not assumptions

Every project starts with an existing environment. Whether it is a CHPP in the Bowen Basin, a brownfield processing plant, a congested industrial building, or a live infrastructure asset, the reality on site is often more complex than any drawing suggests.

Hamilton By Design begins with capturing reality as it actually exists.

Using high-accuracy 3D laser scanning, site conditions are recorded in full context: structure, equipment, services, clearances, and access constraints. This is not about producing pretty visualsโ€”it is about creating a measurable, defensible digital reference that engineers can trust.

Unlike traditional measurement methods, laser scanning:

  • Captures millions of data points per second
  • Records geometry that is difficult or unsafe to measure manually
  • Preserves site information long after access windows close
  • Eliminates reliance on assumptions and partial measurements

For engineering teams, this changes the starting point of the project from โ€œwhat we think is thereโ€ to โ€œwhat we know is there.โ€

Why the FARO Focus S70 fits Hamilton By Designโ€™s workflow

4

Hamilton By Design uses the FARO Focus S70 laser scanner because it strikes the right balance between accuracy, portability, and ease of useโ€”qualities that matter in live industrial environments.

The Focus S70 is particularly well suited to:

  • Brownfield industrial sites
  • Mining and materials-handling plants
  • Buildings with tight access or active operations
  • Remote locations where speed and reliability matter

From a practical engineering perspective, its ease of deployment is critical. Scans can be completed quickly, often without disrupting operations, and without the need for complex setup or prolonged site occupation. This means:

  • Shorter site visits
  • Reduced exposure to operational risk
  • More flexibility around shutdown or access windows

Just as importantly, the data produced is clean, consistent, and immediately usable within downstream engineering workflows.

At Hamilton By Design, scanning is not outsourced or treated as a separate discipline. The same engineers who design the solution are involved in planning the scan, understanding what information matters, and verifying that the captured data is fit for purpose.

This engineer-led approach is one of the quiet but critical advantages that underpins project success.

Turning point clouds into engineering intelligence

Raw point clouds are powerfulโ€”but only if they are translated into meaningful engineering information.

This is where Hamilton By Designโ€™s use of SolidWorks becomes central to our workflow.

SolidWorks provides a flexible, parametric modelling environment that allows scanned data to be transformed into:

  • Accurate 3D mechanical models
  • Structural steel frameworks
  • Equipment layouts
  • Platforms, guards, chutes, and pipework
  • Assemblies designed specifically for fabrication and installation

By importing and referencing point clouds directly within SolidWorks, engineers are no longer designing in isolation. Every model is built in context, anchored to the real geometry of the site.

This approach delivers several key advantages:

  • Components fit the first time
  • Clearances are verified early
  • Interfaces with existing assets are fully understood
  • Installation sequencing can be considered during design

Rather than working around uncertainty, engineers are free to focus on optimisation, constructability, and safety.

SolidWorks as a collaboration platform, not just a design tool

One of the most underestimated strengths of SolidWorks is how well it supports collaboration and communication across project teams.

At Hamilton By Design, SolidWorks models are not treated as internal artefacts. They are shared, reviewed, and used as communication tools.

Through native files, neutral formats, and lightweight viewing options:

  • Fabricators can interrogate geometry before cutting steel
  • Site teams can visualise assemblies before installation
  • Clients can understand scope and interfaces without reading complex drawings
  • Engineers can identify risks long before they appear on site

This transparency dramatically reduces misinterpretation. When everyone is looking at the same modelโ€”derived from the same scanโ€”alignment improves naturally.

The result is fewer RFIs, fewer site surprises, and a smoother transition from design to construction.

Fabrication-ready outcomes, not theoretical models

Hamilton By Design places a strong emphasis on fabrication-ready deliverables.

Because models are developed with manufacturing in mind, downstream drawings are clearer, more consistent, and easier to build from. This includes:

  • Clear general arrangement drawings
  • Detailed part and assembly drawings
  • Logical BOMs aligned to procurement
  • Realistic tolerances based on site conditions

Fabricators appreciate drawings that reflect how things are actually builtโ€”not just how they look on screen. By grounding design in scan data and modelling within SolidWorks, Hamilton By Design produces outputs that align closely with workshop reality.

This reduces rework in the shop and stress during shutdowns, where time pressure is highest.

Technology alone does not deliver project success. The real differentiator is how information is shared.

Hamilton By Design places significant emphasis on making data:

  • Accessible
  • Understandable
  • Reusable

Point clouds, models, drawings, and supporting data are structured so they can be:

  • Revisited for future projects
  • Used by different stakeholders
  • Built upon rather than recreated

This is particularly valuable in long-life industrial assets, where todayโ€™s modification becomes tomorrowโ€™s interface.

By maintaining continuity of data across projects, clients build a digital assetโ€”not just a set of drawings. Over time, this reduces engineering cost, shortens project timelines, and increases confidence in future upgrades.

Ease of use drives adoption and value

One of the reasons the FARO Focus S70 and SolidWorks work so well together is their ease of use relative to the value they deliver.

Ease of use matters because:

  • It shortens learning curves
  • It reduces reliance on niche specialists
  • It allows engineers to stay focused on engineering, not software complexity

At Hamilton By Design, tools are selected not because they are fashionable, but because they support repeatable, reliable outcomes.

Scanning workflows are streamlined. Modelling practices are consistent. File structures are logical. This discipline ensures that projects scale smoothly, whether they involve a small retrofit or a major plant upgrade.

Reducing risk where it matters most

In industrial and mining projects, risk concentrates at interfaces:

  • New steel to old steel
  • New equipment to existing plant
  • Design intent to site execution

Hamilton By Designโ€™s integrated workflow reduces risk at these interfaces by ensuring:

  • Geometry is verified early
  • Interfaces are modelled, not guessed
  • Decisions are made with full context

This approach shifts risk out of the shutdown window and into the design phaseโ€”where it is cheaper and safer to manage.

A philosophy built around accountability

What truly differentiates Hamilton By Design is not just technology, but ownership.

The same team is responsible for:

  • Capturing site data
  • Interpreting it
  • Designing the solution
  • Producing fabrication-ready outputs

There is no fragmentation between disciplines, no handover gaps where responsibility becomes unclear. This single-source accountability builds trust with clients, fabricators, and site teams alike.

The compound effect of doing it right

When accurate data, SolidWorks-based design, and clear information sharing come together, the benefits compound:

  • Fewer site visits
  • Shorter design cycles
  • More confident fabrication
  • Smoother installations
  • Better long-term asset knowledge

Over time, this approach changes how projects are delivered. Engineering becomes proactive rather than reactive. Problems are solved digitally instead of on site. Teams collaborate instead of firefighting.

Engineering for real-world success

Hamilton By Designโ€™s workflow is not built around theory. It is built around what actually happens on site.

By grounding every project in reality through laser scanning, translating that reality into SolidWorks models, and sharing information clearly across all stakeholders, Hamilton By Design helps projects succeed where it matters most: in fabrication shops, during shutdowns, and on live sites.

In an industry where uncertainty is expensive and time is unforgiving, clarity becomes the most valuable engineering output of all.

That is the philosophy behind Hamilton By Designโ€”and the reason our approach continues to deliver consistent, practical success across complex engineering projects.

Hamilton By Design logo displayed on a blue tilted rectangle with a grey gradient background

Our Clients:

Name
Would you like us to arrange a phone consultation for you?
Address
Posted on

3D Scanning Engineering in Broome

3D Scanning Engineering in Broome

Precision Engineering, 3D LiDAR Scanning, Modelling & Drafting for WAโ€™s Northwest

Broome isnโ€™t just a tourism icon โ€” itโ€™s a strategic industrial gateway for the Kimberley and wider Northwest region. With its mix of coastal infrastructure, aviation hubs, port operations, aquaculture, remote-area logistics, defence presence, and fast-growing construction and industrial service sectors, Broome demands accurate engineering, resilient design, and clear digital documentation.

Hamilton By Design supports Broome and the Northwest with 3D LiDAR laser scanning, advanced engineering, 3D CAD modelling, and fabrication-ready drafting โ€” giving local operators, fabricators, builders, and councils the precise data they need to design, upgrade and maintain complex assets.

Why Broome Is Unique for Engineering & 3D Digital Capture

Broome presents engineering challenges unlike any other region in Australia:

1. Cyclone-Prone Coastal Conditions

Infrastructure must withstand extreme weather, high winds, saltwater exposure and corrosion cycles.

2. Remote-Region Logistics

Every upgrade, installation or fabrication effort must be done right the first time โ€” rework is costly due to distance, travel, and mobilisation requirements.

3. Diverse Infrastructure Portfolio

Broomeโ€™s economy spans:

  • Port and marine services
  • Aquaculture and pearling facilities
  • Aircraft/airport operations
  • Utilities and water assets
  • Community and tourism developments
  • Defence and government infrastructure

Each requires accurate as-built documentation and engineering certainty.

4. Heritage, Environment & Cultural Sensitivity

Design and construction must consider local heritage, Indigenous stewardship, and coastal environmental constraints.

This makes 3D scanning and digital engineering essential for project planning, structural upgrades, fabrication works, and long-term maintenance.

High-Accuracy 3D LiDAR Scanning for Broome Projects

Hamilton By Design provides millimetre-accurate scanning to document existing structures, marine assets, foundations, terrain, utilities, steelwork, and equipment layouts.

Learn more about our scanning capabilities:
3D Laser Scanning

3D scanning reduces site risk, improves precision, and allows remote teams to view and measure the site digitally without multiple visits โ€” ideal for Broomeโ€™s remote context.

We support:

  • Wharf and jetty upgrades
  • Aquaculture processing & pipeline systems
  • Industrial workshops
  • Remote utilities infrastructure
  • Structural condition assessment
  • Coastal facility expansion
  • New-build design coordination

3D CAD Modelling โ€” Digital Twins for Better Engineering Decisions

After scanning, our team converts point-clouds into detailed mechanical, structural and civil 3D models.

Learn more:
3D CAD Modelling

These models support:

  • concept layouts
  • clash detection
  • fabrication planning
  • equipment integration
  • structural and mechanical coordination
  • tender documentation
  • regulator submissions

For Broome operators, digital models mean fewer delays, improved communication, and precise fabrication โ€” even when suppliers are hundreds or thousands of kilometres away.

Engineering & FEA for Coastal, Industrial and Remote-Region Assets

Broome assets must handle corrosion, high wind loads, dynamic forces, mechanical wear and extreme temperatures.

Hamilton By Design provides:

  • structural analysis (steelwork, platforms, frames, supports)
  • mechanical design for machinery, conveyors, pipework and plant equipment
  • fatigue, stress, vibration and pressure modelling
  • load assessments for marine and coastal assets
  • design verification and documentation

Explore our analysis capabilities:
FEA Capabilities

This ensures projects in Broome are safe, compliant and resilient.

Drafting & Documentation for Fabricators, Builders & Councils

We produce complete drawing packages that Broomeโ€™s industries rely on, including:

  • GAs and layouts
  • Structural detailing
  • Isometrics
  • Workshop fabrication drawings
  • As-built records
  • Revision and modification documentation

Learn more:
Drafting

Our drafting aligns directly with field-accurate scan data, giving fabricators and contractors confidence from day one.

Hamilton By Design logo displayed on a blue tilted rectangle with a grey gradient background

Why Broome Operators Choose Hamilton By Design

  • Engineer-led scanning for accuracy, safety and context
  • End-to-end capability โ€” scan โ†’ model โ†’ engineer โ†’ draft
  • Reduced travel cost due to remote digital access
  • Fewer errors, clashes and fabrication issues
  • Fast turnaround even for remote locations
  • Proven experience in mining, marine, industrial and regional projects

Broomeโ€™s infrastructure is growing โ€” and precise engineering is essential. With 3D scanning, modern modelling, and strong engineering expertise, Hamilton By Design helps the Northwest build better, faster and with full confidence.

Our Clients

Name
Would you like us to arrange a phone consultation for you?
Address
Posted on

Toowoombaโ€™s Engineering Future

Toowoombaโ€™s Engineering Future: How 3D LiDAR Scanning & Digital Modelling Are Transforming Projects Across the Darling Downs

Toowoomba is quickly becoming one of Australiaโ€™s most important regional powerhouses โ€” a city where agriculture, logistics, mining, construction and manufacturing intersect at a scale rarely seen outside capital cities. With major infrastructure investments, the growth of the Toowoomba Wellcamp Airport, and its position as a gateway to the Surat Basin and the Darling Downs, the region is undergoing a steady shift toward digitally enabled engineering and smarter project delivery.

At Hamilton By Design, weโ€™re incredibly proud to support this growth by providing 3D LiDAR laser scanning, mechanical engineering consulting, 3D modelling and drafting, and digital quality assurance tailored specifically for the demands of Toowoombaโ€™s industrial, commercial and rural sectors.

In this article, we explore why Toowoomba is so unique, the role of modern engineering technology in the region, and how accurate site data and digital models are helping local businesses reduce rework, improve safety and deliver better project outcomes.

Why Toowoomba Is the Perfect Fit for Modern Digital Engineering

Toowoomba is Australiaโ€™s largest inland city outside Canberra, with more than 180,000 people and an economy driven by a mix of agriculture, logistics, manufacturing, construction and energy projects. Its elevated position on the Great Dividing Range, combined with its access to the Surat Basin and major rural supply chains, makes it a critical service hub for heavy industry and regional infrastructure.

But what really sets Toowoomba apart is its transformation into a logistics and engineering centre. With Inland Rail connections, Wellcamp Airportโ€™s freight terminal and constant agricultural expansion, the demand for precise, reliable engineering data has grown rapidly.

This is where 3D LiDAR scanning and digital engineering provide enormous value.

3D LiDAR Laser Scanning: Bringing Millimetre-Level Accuracy to Local Projects

Whether youโ€™re working on a feed mill upgrade, a manufacturing facility expansion, a rural processing plant, a logistics warehouse fit-out or a mining-related modification, accurate site measurements are essential. Traditional surveys struggle to capture the complex geometry, alignment issues or hidden interferences common in brownfield environments.

Engineering-grade 3D LiDAR scanning solves this problem instantly.

Hamilton By Design uses high-accuracy terrestrial laser scanners capable of capturing:

  • complex plant layouts
  • conveyors, chutes, structural frames
  • pipework routing and clashes
  • equipment misalignment
  • deflections, corrosion and wear
  • existing foundations and tie-in points
  • site terrain and building envelopes

All delivered with millimetre-level accuracy.

For Toowoomba businesses, this means:

  • reduced rework
  • faster fabrication
  • fewer shutdown overruns
  • safer installations
  • accurate as-built documentation

In a region where travel, mobilisation and shutdown timing matter, these improvements translate directly into cost savings and smoother project execution.

3D Modelling & Drafting for Toowoomba Industry

After scanning, the next step is turning point-cloud data into intelligent 3D models and fabrication-ready drawings.

Hamilton By Design specialises in:

  • SolidWorks mechanical modelling
  • structural modelling for plant systems
  • equipment layouts and upgrade designs
  • skid-based systems
  • brownfield modification design
  • drawing packages (GA, detail, isometric, BOMs)

For Toowoomba industries โ€” especially manufacturing workshops, agri-processing facilities, grain-handling plants, transport depots and rural engineering contractors โ€” accurate 3D models significantly improve design coordination.

We often hear clients say:

โ€œWe used to rely on tape measures and photos. Now we can see the entire plant from our office.โ€

That is exactly the transformation 3D modelling provides.

Mechanical Engineering for Brownfield Upgrades Across the Darling Downs

The Toowoomba region is rich in brownfield mechanical assets:
farm infrastructure, conveyor systems, grain silos, batching plants, food-processing lines, workshops, energy facilities and quarry machinery.

Hamilton By Design provides engineering support such as:

  • mechanical design for upgrades
  • structural integrity assessments
  • vibration, alignment and deflection reviews
  • buckling, fatigue and stress analysis (FEA)
  • chute, pipework and mechanical flow improvements
  • equipment mounting, lifting and access design

Our combination of engineer-led scanning + mechanical design ensures that every upgrade fits the first time and is supported by real data.

Why 3D Laser Scanning Is a Game-Changer for Toowoomba

Hereโ€™s where Toowoomba really benefits compared to many inland cities:

1. Large Agricultural Facilities Need Accurate Layouts

Feedlots, grain silos, packing sheds, processing plants and cold-storage facilities often evolve over many years. Scanning helps document these environments for compliance, redesign and expansion.

2. The Region Supports Mining & Energy Projects

Toowoomba acts as a service centre for the Surat Basin โ€” Dalby, Chinchilla, Miles, Roma.
LiDAR enables accurate tie-in points, pipe upgrades and shutdown planning.

3. Manufacturing & Fabrication Are Growing

Local workshops need precise data to avoid rework. Models based on point clouds give fabricators total confidence before cutting steel.

4. Logistics Infrastructure Continues Expanding

Wellcamp Airport, industrial estates and new warehousing projects benefit from accurate as-built documentation to speed up development approvals and construction decisions.

5. Reducing Travel Costs Is Critical for Regional Projects

A single scan eliminates multiple site trips โ€” crucial for Toowoombaโ€™s broad geographic service area.

Types of Toowoomba Projects Hamilton By Design Supports

Here are some of the local project types where our team adds immediate value:

  • grain-handling plant upgrades
  • feed mill expansions
  • water treatment & pumping stations
  • abattoir & food facility engineering
  • conveyor & materials-handling systems
  • batching plant upgrades
  • workshop fit-outs and machinery layouts
  • logistics warehouse redesigns
  • rural industrial buildings
  • mechanical equipment retrofits
  • energy & utility infrastructure

Whether itโ€™s a small workshop or a multi-hectare industrial site, LiDAR scanning gives project teams a crystal-clear digital representation of the site.

Single-Source Accountability:

Scanning โ†’ Modelling โ†’ Engineering โ†’ Drawings

One of the biggest frustrations in regional engineering is fragmented contractors โ€” one team scans, another models, another designs, and nobody takes responsibility when things donโ€™t align.

Hamilton By Design solves this with an integrated workflow:

  1. 3D LiDAR scan of the site
  2. Registration and accuracy validation
  3. 3D CAD modelling (SolidWorks)
  4. Mechanical & structural engineering
  5. Fabrication-ready drawings
  6. Digital QA and installation support

Everything is handled by a single engineering-led team.

Toowoombaโ€™s Future Needs Digital Engineering โ€” And Weโ€™re Here to Support It

Toowoomba is entering a decade of growth โ€” new industrial estates, expansions in agri-processing, energy transformation, airport-driven logistics and inland infrastructure.
Digital engineering will be a major part of how these projects are delivered efficiently and safely.

Hamilton By Design logo displayed on a blue tilted rectangle with a grey gradient background

Hamilton By Design is excited to provide Toowoomba businesses with:

  • precise 3D LiDAR scanning
  • mechanical engineering and assessment
  • professional 3D modelling and drafting
  • fabrication-ready design
  • digital documentation and QA

Whether youโ€™re planning a small plant improvement or a major regional upgrade, our data-driven approach helps you design with confidence.