How SOLIDWORKS Changed Engineering in Sydney

From 2D Drawings to Digital Engineering

By Hamilton By Design

For more than two decades, SOLIDWORKS has transformed the way engineers, designers, manufacturers, fabricators, project managers and asset owners work across Sydney and Australia.

What began as a powerful 3D CAD package has evolved into a complete engineering platform used for product development, mining infrastructure, pipework design, structural detailing, reverse engineering, simulation, manufacturing and digital engineering workflows.

Today, it is difficult to find an engineering workshop, fabrication business, mining support contractor or design consultancy in Sydney that has not been influenced by SOLIDWORKS in some way.

However, the real impact of SOLIDWORKS is not the software itself.

The real impact is how it has helped engineers make better decisions.

         

The Engineering Challenge

Every engineering project begins with uncertainty.

Questions commonly asked include:

• What actually exists onsite?
• Will the new equipment fit?
• Is there enough clearance?
• Will the structure support the load?
• Can the pipework be fabricated?
• Can the shutdown be completed on time?
• Have modifications been documented correctly?
• Is the asset nearing end of life?

Historically, engineers relied on:

• Hand sketches
• Tape measures
• Existing drawings
• Site notes
• 2D CAD systems

While these methods worked, they often resulted in:

• Design assumptions
• Fabrication errors
• Site clashes
• Project delays
• Cost overruns
• Rework

As Sydney's infrastructure, manufacturing and industrial sectors became increasingly complex, engineers required better tools to manage risk and improve decision-making.

This is where SOLIDWORKS changed the industry.

Sydney's Engineering Landscape

Sydney is home to a diverse engineering sector supporting:

• Manufacturing
• Mining support services
• Transport infrastructure
• Water and wastewater
• Food processing
• Pharmaceutical manufacturing
• Defence
• Power generation
• Industrial infrastructure

Although major mining operations are located outside Sydney, many engineering consultancies, equipment manufacturers and specialist contractors supporting these industries are based in Sydney.

As projects became more complex, traditional 2D drafting methods were no longer enough.

Three-dimensional engineering became essential.

Before SOLIDWORKS

Before widespread adoption of 3D CAD, engineering projects were largely documented using 2D drawings.

Limited Visualisation

Understanding complex assemblies from flat drawings could be difficult.

Pipework systems, structures and equipment often required experienced personnel to interpret correctly.

Site Clashes

Many problems were only discovered during construction.

Examples included:

• Pipework intersecting structures
• Equipment access issues
• Maintenance clearance problems
• Fabrication mismatches

Time-Consuming Modifications

A small design change often required updates across multiple drawings.

This increased project time and introduced opportunities for error.

The Arrival of SOLIDWORKS

SOLIDWORKS introduced a different approach.

Instead of drawing lines representing objects, engineers could create digital models representing actual components.

This enabled:

• Parametric modelling
• Assembly modelling
• Interference detection
• Manufacturing documentation
• Visualisation
• Design validation

Engineers could now see how components interacted before fabrication commenced.

For the first time, engineering teams could work from digital prototypes instead of relying solely on drawings.

How SOLIDWORKS Is Used in Sydney Today

Mechanical Engineering

SOLIDWORKS is extensively used for:

• Machinery design
• Equipment upgrades
• Pressure vessels
• Pump systems
• Mechanical assemblies
• Process equipment

Sydney engineering firms use SOLIDWORKS to develop designs that move directly into manufacturing.

Pipework Design and Drafting

Pipework remains one of the most important applications.

Engineers use SOLIDWORKS to:

• Model pipe routes
• Create spool drawings
• Design pipe supports
• Verify clearances
• Produce fabrication drawings
• Coordinate mechanical interfaces

Learn more:

👉 https://pipeworkdetailing.blogspot.com/

Structural Detailing

Pipework rarely exists without structures.

SOLIDWORKS supports:

• Pipe racks
• Platforms
• Access systems
• Stairways
• Structural supports
• Equipment foundations

The ability to model structures alongside pipework significantly reduces clashes and improves constructability.

Learn more:

👉 https://structural-detailing.blogspot.com/

Mining Infrastructure

Mining infrastructure projects often combine:

• Conveyors
• Transfer chutes
• Tanks
• Pipework
• Structural steel
• Mechanical equipment

SOLIDWORKS allows engineers to coordinate all these systems within a single environment.

Learn more:

👉 https://mininginfrastructuresolidworksdesign.blogspot.com/

The Rise of Digital Engineering

One of the most significant changes in Sydney engineering has been the move toward digital engineering.

Today projects commonly utilise:

• LiDAR scanning
• Point clouds
• Digital twins
• Reality capture
• Cloud collaboration
• Asset management systems

SOLIDWORKS sits at the centre of many of these workflows.

Reality Capture and SOLIDWORKS

One of the biggest challenges facing industrial projects is obtaining accurate site information.

Many facilities contain:

• Undocumented modifications
• Outdated drawings
• Unknown asset conditions
• Missing records

Engineering-grade LiDAR scanning allows engineers to capture reality.

The workflow typically includes:

Step 1 – Site Capture

Engineering-grade scanners capture millions of measurements.

Step 2 – Point Cloud Processing

Site data is registered and verified.

Step 3 – SOLIDWORKS Modelling

Engineers create models directly from measured information.

Step 4 – Design Development

New equipment, pipework and structures are designed.

Step 5 – Verification

Models are checked against reality before fabrication.

This process dramatically reduces uncertainty.

Learn more:

👉 https://www.hamiltonbydesign.com.au/

How SOLIDWORKS Improves Engineering Decisions

The real value of SOLIDWORKS is decision-making.

Engineers are constantly trying to answer questions such as:

• Will it fit?
• Will it work?
• Will it last?
• Can it be maintained?
• Is it safe?
• Can it be fabricated?
• Can it be installed?

SOLIDWORKS helps answer these questions earlier in the project lifecycle.

Reliability Engineering Benefits

Reliability engineers focus on:

• Failure prevention
• Asset life
• Maintenance planning
• Risk reduction
• Asset integrity

SOLIDWORKS assists through:

Visualisation

Understanding existing assets.

Analysis

Evaluating performance.

Documentation

Maintaining accurate records.

Future Planning

Supporting modifications and upgrades.

Impact on Manufacturing

Sydney manufacturers benefit through:

Reduced Rework

Digital models reduce fabrication errors.

Faster Production

Accurate drawings improve workshop efficiency.

Better Communication

Engineers, fabricators and installers work from the same information.

Improved Quality

Manufacturing can be verified against digital models.

Impact on Project Management

Project managers are often concerned with:

• Budget
• Schedule
• Scope
• Risk

SOLIDWORKS contributes by reducing uncertainty.

Benefits include:

• Better planning
• Better visualisation
• Improved stakeholder communication
• Reduced clashes
• More accurate procurement

Impact on Shutdown Projects

Shutdown projects frequently operate under extreme time pressure.

Every hour counts.

SOLIDWORKS helps by:

• Identifying issues before shutdown
• Improving prefabrication accuracy
• Supporting installation planning
• Reducing field modifications
• Improving coordination

For many industrial facilities, this can mean significant cost savings.

What Engineers Want to Be Better At

Technology continues to evolve, but the goal remains the same.

Engineers want to improve:

Understanding

Understanding existing assets.

Prediction

Predicting failures and risks.

Communication

Sharing information effectively.

Accuracy

Producing designs that fit the first time.

Reliability

Improving asset performance.

Safety

Reducing hazards and operational risks.

Systems Thinking

Understanding how assets interact across an entire facility.

SOLIDWORKS is simply one of the tools that supports these objectives.

The Future of SOLIDWORKS in Sydney

Future trends include:

• Digital twins
• Artificial intelligence
• Automated modelling
• Cloud collaboration
• Reality capture integration
• Asset lifecycle management

The combination of LiDAR scanning and SOLIDWORKS modelling will continue to play a major role in industrial engineering projects.

As facilities become increasingly complex, accurate digital information will become even more valuable.

How Hamilton By Design Uses SOLIDWORKS

At Hamilton By Design, SOLIDWORKS forms a core part of our engineering workflow.

We combine:

• Engineering-grade LiDAR scanning
• Point cloud processing
• Mechanical engineering
• Pipework detailing
• Structural detailing
• Reverse engineering
• Fabrication drawings

to support projects throughout Australia.

Our goal is simple:

Reduce uncertainty and help clients make better engineering decisions.

Learn more:

👉 https://www.hamiltonbydesign.com.au/

Frequently Asked Questions (FAQs)

1. What is SOLIDWORKS?

SOLIDWORKS is a 3D CAD and engineering software platform used for design, drafting, simulation and manufacturing documentation.

2. Why is SOLIDWORKS popular in Sydney?

It provides a powerful and cost-effective solution for engineering, manufacturing and infrastructure projects.

3. What industries use SOLIDWORKS?

Manufacturing, mining, transport, water, infrastructure, defence and food processing industries.

4. Can SOLIDWORKS be used for pipework design?

Yes. SOLIDWORKS can model piping systems, supports and complete plant layouts.

5. What is pipework detailing?

The preparation of fabrication and installation drawings for piping systems.

6. Can SOLIDWORKS generate fabrication drawings?

Yes.

7. What are spool drawings?

Fabrication drawings used to manufacture sections of pipework.

8. Why is accurate pipework detailing important?

It reduces installation issues and fabrication errors.

9. Can SOLIDWORKS identify pipe clashes?

Yes.

10. Can pipe supports be modelled?

Yes.

11. What file formats can SOLIDWORKS export?

STEP, Parasolid, IGES, SAT, DWG, DXF and many others.

12. Is SOLIDWORKS suitable for brownfield facilities?

Yes.

13. Can SOLIDWORKS model structural steel?

Yes.

14. What is structural detailing?

The creation of fabrication drawings for structural steel.

15. Can platforms and stairs be designed?

Yes.

16. Can structural clashes be identified?

Yes.

17. What is LiDAR scanning?

Laser-based technology used to capture accurate site measurements.

18. Why combine LiDAR scanning with SOLIDWORKS?

To model actual site conditions.

19. What is a point cloud?

A collection of millions of measured coordinates representing physical assets.

20. Can SOLIDWORKS use point cloud data?

Yes.

21. What is scan-to-CAD?

Converting scan data into CAD models and drawings.

22. What scanners are commonly used?

FARO Focus, FARO Orbis, Leica RTC360 and Trimble X Series.

23. Can existing facilities be modelled from scans?

Yes.

24. What industries use reality capture?

Mining, manufacturing, infrastructure, water and power generation.

25. Can LiDAR scanning reduce shutdown risks?

Yes.

26. How is SOLIDWORKS used in mining?

For conveyors, chutes, tanks, pipework and structures.

27. Can SOLIDWORKS support shutdown projects?

Yes.

28. Can mining infrastructure be reverse engineered?

Yes.

29. What is brownfield engineering?

Modifications to existing facilities.

30. Why is accurate information important?

Because errors can result in significant project costs.

31. How does Hamilton By Design use SOLIDWORKS?

For design, drafting, modelling and reverse engineering.

32. Does Hamilton By Design provide LiDAR scanning?

Yes.

33. Does Hamilton By Design create fabrication drawings?

Yes.

34. Can Hamilton By Design perform scan-to-CAD services?

Yes.

35. Does Hamilton By Design support mining projects?

Yes.

36. Can Hamilton By Design verify plant layouts?

Yes.

37. What is digital engineering?

Using digital technologies to improve project outcomes.

38. What is a digital twin?

A digital representation of a physical asset.

39. What is reverse engineering?

Creating engineering information from existing equipment.

40. Can SOLIDWORKS be used with manufacturing equipment?

Yes.

41. Does SOLIDWORKS improve communication?

Yes.

42. Does SOLIDWORKS improve project planning?

Yes.

43. Does SOLIDWORKS help reduce rework?

Yes.

44. Does SOLIDWORKS improve safety?

Yes.

45. Can SOLIDWORKS support maintenance planning?

Yes.

46. What is interference detection?

A tool used to identify component clashes before construction.

47. Can SOLIDWORKS support asset management?

Yes.

48. Why is engineering accuracy important?

It reduces risk and improves project success.

49. What is Hamilton By Design's engineering philosophy?

Reducing uncertainty through accurate engineering information.

50. Why choose Hamilton By Design?

Because we combine over 30 years of engineering, drafting, manufacturing and digital engineering experience to help clients make better engineering decisions.

Related Engineering Resources

Hamilton By Design

https://www.hamiltonbydesign.com.au/

Hamilton By Design Engineering Insights

https://hamiltonbydesign.blogspot.com/

Pipework Detailing

https://pipeworkdetailing.blogspot.com/

Structural Detailing

https://structural-detailing.blogspot.com/

Mining Infrastructure SolidWorks Design

https://mininginfrastructuresolidworksdesign.blogspot.com/

The biggest impact SOLIDWORKS has had on Sydney engineering is not simply the creation of 3D models.

It has changed how engineers think.

By combining visualisation, digital modelling, manufacturing documentation, reality capture and engineering analysis, SOLIDWORKS has helped engineers reduce uncertainty and improve decision-making.

Whether supporting mining infrastructure, pipework systems, structural steel, industrial facilities or manufacturing operations, SOLIDWORKS continues to be one of the most influential engineering tools available today.

The future of engineering is not about creating more drawings.

It is about creating better information.

And better information leads to better engineering decisions, safer facilities, more reliable assets and more successful projects.

Better Information → Better Decisions → Better Projects.

3D Laser Scanning - Hamilton By Design Co.

SolidWorks Designer for the Mining Industry

What Mining Companies, Engineers & Fabricators Are Looking For Today

The mining industry has always demanded precision, reliability, and performance. Whether operating in coal, base metals, or bulk handling facilities, the margin for error is minimal—especially when projects involve shutdown windows, heavy equipment, and high-risk environments.

In today’s mining sector, expectations around design and drafting have shifted significantly. Mining companies, engineers, and fabrication teams are no longer looking for basic drawings.

👉 They are looking for complete, accurate, and accessible engineering data.

And increasingly, that data is expected to be delivered in SolidWorks, supported by certified designers and connected through modern platforms like the 3DEXPERIENCE ecosystem.

Hamilton By Design | SolidWorks

What the Mining Industry Is Actually Looking For

Mining projects are fundamentally different from standard construction projects.

They typically involve:

• Brownfield modifications
• Integration with existing plant
• Heavy-duty structural and mechanical systems
• Tight shutdown schedules

Because of this, mining clients expect a higher level of engineering support.

1. Accuracy in Real-World Conditions

Mining environments are complex and often poorly documented.

Engineers and site teams need:

• Accurate models of existing structures
• Confidence that new components will fit
• Minimal reliance on assumptions

Errors in mining projects can lead to:

• Extended shutdowns
• Production losses
• Safety risks

As a result, the industry demands engineering-grade modelling, not just drafting.

2. Fabrication-Ready Outputs

Fabricators supporting mining operations require:

• Detailed shop drawings
• CNC-ready DXF profiles
• Clear assembly models

These outputs are used directly in workshops to manufacture:

• Conveyor structures
• Chutes and transfer points
• Platforms and access systems
• Mechanical equipment

👉 There is no room for interpretation—drawings must be complete and correct.

3. Fast Turnaround Under Pressure

Mining projects are often tied to:

• Shutdown windows
• Maintenance schedules
• Production targets

This means engineering deliverables must be:

• Delivered quickly
• Accurate the first time
• Ready for immediate use

Delays in design directly impact production.

4. Integration Between Structural & Mechanical Design

Mining systems are rarely isolated.

They involve integration between:

• Structural steel
• Mechanical equipment
• Pipework and services

This is why mining companies are increasingly favouring 3D parametric modelling platforms like SolidWorks, which allow full assembly modelling and coordination.

Engineering | Drafting | Laser Scanning

Why SolidWorks Certification Matters in Mining

In a competitive market, SolidWorks certification has become a strong differentiator.

1. Demonstrated Competency

Certification proves that a designer can:

• Build parametric models
• Manage assemblies
• Produce accurate drawings

For mining companies, this reduces risk when selecting engineering partners.

2. Confidence in Complex Projects

Mining projects often involve:

• Large assemblies
• Moving equipment
• Complex interfaces

Certified SolidWorks users are trained to:

• Manage design intent
• Maintain model integrity
• Handle changes efficiently

3. Alignment with Industry Tools

SolidWorks is widely used across:

• Mining contractors
• Fabrication workshops
• Equipment manufacturers

Having certified capability ensures compatibility across the supply chain.

4. Reduced Errors and Rework

Certified designers are more likely to:

• Follow best practices
• Produce clean, structured models
• Deliver consistent outputs

This directly reduces:

• Fabrication errors
• Site modifications
• Project delays

Contact Us

What Mining Fabricators Are Looking For

Fabricators supporting mining operations are highly practical.

They want:

✔ Models That Reflect Reality

Fabricators expect:

• Accurate geometry
• Realistic tolerances
• Buildable designs

✔ Direct Manufacturing Outputs

They need:

• DXF profiles for cutting
• Assembly drawings
• Bill of materials

SolidWorks supports this directly, allowing design-to-fabrication workflows without excessive conversion.

✔ Clear Communication

Fabricators prefer:

• Visual models
• Easy-to-understand drawings
• Minimal ambiguity

The Role of the 3DEXPERIENCE Platform

The biggest shift in mining engineering workflows is not just CAD—it is data accessibility.

This is where the 3DEXPERIENCE platform becomes critical.

24/7 Access to Engineering Data

Mining operations do not stop.

They run:

• 24 hours a day
• 7 days a week

Engineering data must be available at all times.

The 3DEXPERIENCE platform enables:

👉 Access to models, drawings, and data anytime, anywhere

What This Means in Practice

Site teams can:

• View models on tablets or laptops
• Access the latest revision instantly
• Avoid working from outdated drawings

Fabricators can:

• Download DXF files
• Access assemblies
• Review models before fabrication

Engineers can:

• Update models in real time
• Share changes instantly
• Maintain control over revisions

Key Advantages for the Mining Industry

1. Single Source of Truth

All data is stored in one location, ensuring:

• Version control
• Data integrity
• Reduced errors

2. Real-Time Collaboration

Teams can:

• Review models together
• Add markups
• Resolve issues quickly

3. Integrated Workflows

The platform connects:

• Design
• Simulation
• Fabrication

4. Accessibility Without Complexity

Users can access:

• Drawings
• DXF profiles
• eDrawings-style visualisations

Without needing full CAD software installed.

5. Reduced Project Risk

With better access and coordination:

• Errors are identified earlier
• Decisions are made faster
• Projects run more smoothly

www.hamiltonbydesign.com.au

SoildWorks Central Coast

Why This Matters for Mining Projects

Mining environments are:

• Remote
• High-risk
• Time-critical

The ability to access accurate data instantly is not just convenient—it is essential.

The 3DEXPERIENCE platform ensures that:

👉 Everyone is working from the same information
👉 At the same time
👉 Anywhere in the operation

The Future of Mining Engineering

The mining industry is moving toward:

• Digital engineering workflows
• Integrated CAD platforms
• Cloud-based collaboration
• Real-time data access

SolidWorks, combined with the 3DEXPERIENCE platform, sits at the centre of this shift.

What Clients Are Ultimately Buying

Mining clients are not just buying drawings.

They are buying:

• Confidence in design
• Reliability in fabrication
• Efficiency in installation
• Reduced operational risk

Conclusion

The expectations of the mining industry have evolved.

Mining companies, engineers, and fabricators are looking for:

• Accurate, engineering-led models
• Fabrication-ready outputs
• Certified SolidWorks capability
• 24/7 access to data

SolidWorks provides the modelling capability.

The 3DEXPERIENCE platform provides the accessibility and control.

Together, they deliver:

👉 A complete engineering solution—from design to fabrication to operation

And in mining, where time, safety, and cost are critical:

👉 That makes all the difference.

Hamilton By Design | SolidWorks

Engineering | Drafting | Laser Scanning