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Reverse Engineering for Mining and Industrial Equipment: Extending Asset Life

Engineering-grade reverse engineering workflow showing LiDAR scanning, CAD modelling, and FEA analysis used to recreate industrial equipment components.

Mining and industrial facilities often operate equipment for many years beyond its original installation date. Over time, machinery evolves through repairs, modifications, upgrades, and changing operational requirements. While equipment may continue performing effectively, obtaining replacement components can become increasingly difficult.

One of the most common challenges faced by industrial operations is finding replacement parts for ageing equipment where:

  • Original equipment manufacturers (OEMs) no longer support the product
  • Engineering drawings are unavailable
  • Documentation has been lost
  • Components have become obsolete
  • Lead times are excessive
  • Full equipment replacement becomes expensive

In these situations, reverse engineering can provide a practical pathway to maintain equipment performance and extend asset life.

At Hamilton By Design, we support mining and industrial operations through engineering-grade reverse engineering workflows incorporating 3D LiDAR scanning, CAD modelling, engineering analysis, and fabrication-ready documentation.

What is Reverse Engineering?

Reverse engineering involves capturing and analysing an existing component or system to recreate accurate engineering information.

Rather than starting from a new concept design, the process begins with an existing asset and develops:

  • Digital geometry
  • Engineering drawings
  • CAD models
  • Dimensional information
  • Design documentation
  • Manufacturing information

The goal is creating accurate engineering data that supports maintenance, fabrication, and equipment improvement.

Why Mining and Industrial Operations Use Reverse Engineering

Many industrial facilities contain equipment that may have operated for decades.

Examples include:

  • Conveyors
  • Transfer chutes
  • Pumps
  • Crushers
  • Structural components
  • Wear liners
  • Shafts
  • Fabricated assemblies
  • Mechanical components
  • Materials handling systems

As equipment ages, facilities can encounter increasing challenges obtaining replacement parts.

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Common issues include:

  • Obsolete components
  • Long manufacturing lead times
  • Missing drawings
  • Unknown modifications
  • Reduced OEM support
  • Increased maintenance costs

Reverse engineering helps bridge this information gap.

Obsolete Components and Missing Documentation

A common situation occurs when maintenance teams identify a failed component but no manufacturing information exists.

Examples may include:

  • Worn shafts
  • Custom brackets
  • Conveyor components
  • Pump assemblies
  • Structural items
  • Wear components

Without engineering information, organisations may face:

  • Extended downtime
  • Emergency fabrication
  • Manual measurement errors
  • Increased costs

Reverse engineering can convert physical components into accurate engineering data.

Extending Equipment Life

Full equipment replacement is not always necessary.

In many situations:

  • The surrounding system remains functional
  • Only selected components require replacement
  • Minor improvements may improve performance
  • Existing equipment can continue operating effectively

Extending equipment life may provide:

  • Lower capital expenditure
  • Reduced project risk
  • Reduced downtime
  • Improved return on investment
  • Improved operational continuity

Replacement Part Creation

Hamilton By Design can support replacement component development through engineering workflows including:

Existing Condition Capture

Capture existing equipment using:

  • Engineering-grade LiDAR scanning
  • Physical measurements
  • Dimensional verification

CAD Modelling

Develop:

  • Editable CAD models
  • Mechanical assemblies
  • Manufacturing information

Engineering Drawings

Generate:

  • General arrangement drawings
  • Fabrication drawings
  • Manufacturing documentation

Engineering Validation

Support projects through:

  • Design assessment
  • Engineering analysis
  • Finite Element Analysis (FEA)
  • Structural validation

Reducing Downtime

Unexpected equipment failures can significantly affect production.

Potential impacts may include:

  • Lost production
  • Shutdown delays
  • Increased labour requirements
  • Emergency maintenance costs
  • Reduced operational efficiency

Reverse engineering can support maintenance planning by creating:

  • Digital spare part libraries
  • Engineering records
  • Manufacturing information
  • Improved replacement processes

This allows organisations to move from reactive responses toward more structured asset management.

Cost Versus Full Equipment Replacement

Replacing an entire system can involve:

  • High capital cost
  • Long procurement timeframes
  • Installation costs
  • Production interruptions
  • Project risk

Reverse engineering may provide an alternative where:

  • Existing equipment remains suitable
  • Only selected components require replacement
  • Performance improvements can be introduced

Engineering decisions can then focus on lifecycle value rather than simply replacing complete systems.

Industrial Applications

Reverse engineering can support:

Mining Operations

  • Conveyor systems
  • Transfer chutes
  • Crushers
  • Pump systems
  • Structural assets
  • Processing equipment

Manufacturing Facilities

  • Production equipment
  • Mechanical assemblies
  • Custom components

Industrial Processing Plants

  • Wear components
  • Mechanical equipment
  • Plant modifications
  • Existing assets
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How Hamilton By Design Supports Reverse Engineering Projects

Hamilton By Design combines engineering tools and practical engineering experience to support reverse engineering projects through:

  • Engineering-grade 3D LiDAR scanning
  • Scan-to-CAD workflows
  • Mechanical design
  • CAD modelling
  • Engineering analysis and FEA
  • Fabrication documentation
  • Existing condition verification

The objective is not simply reproducing a component.

The objective is creating reliable engineering information that supports productivity, maintenance, and long-term asset performance.

Engineering-grade reverse engineering helps transform ageing assets from a limitation into an opportunity for improved operational performance.

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Our Clients:

From Existing Component to Fabrication Drawing: How Scan-to-CAD Supports Reverse Engineering
Why Engineering-Grade Scanning Matters in Reverse Engineering Projects
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Mechanical Engineering in Mining Infrastructure

Mining processing plant infrastructure with conveyors and transfer towers illustrating mechanical engineering design for mining operations.

Mining mechanical engineering covers the design, integration, and optimisation of equipment used in extraction, processing, and materials handling.

Typical systems include:

  • Conveyor systems and transfer stations
  • Crushing and screening equipment
  • Pumping systems and slurry transport
  • Structural mechanical equipment supports
  • Chutes, bins, and materials handling systems
  • Mechanical plant upgrades and retrofits

Each of these systems must be designed to handle high loads, abrasive materials, and continuous operation while integrating into existing plant layouts.

For projects involving plant upgrades or shutdown work, it is critical to capture existing plant conditions accurately before design begins.

Learn more about this process here:

How Engineers Capture Existing Conditions Before Plant Upgrades

Engineering Design for Existing Mining Plants

Many mining projects involve modifying existing infrastructure rather than building new facilities. This presents several engineering challenges:

  • Limited installation space
  • Legacy equipment and undocumented plant layouts
  • Structural constraints
  • Integration with operating equipment

Hamilton By Design addresses these challenges by using engineering-grade 3D laser scanning to capture precise plant geometry before design work begins.

This approach allows engineers to work with accurate digital models of operating plants, reducing risk during installation and shutdown work.

Learn more about our scanning services:

3D Laser Scanning

From Point Cloud to Mechanical Engineering Model

Once a plant has been scanned, the collected data is converted into a point cloud model that represents the existing infrastructure.

From this data we can produce:

  • Mechanical equipment layouts
  • Pipe routing designs
  • Structural steel interfaces
  • Conveyor and chute designs
  • Equipment modification models

The process ensures new engineering designs fit within the true geometry of the plant, avoiding clashes and installation problems.

Read more about the workflow here:

From Point Cloud to Engineering Model Workflow

Mechanical Design for Mining Shutdown Projects

Shutdowns are one of the most critical periods in mining operations. Mechanical engineering designs prepared for shutdown installation must be accurate, buildable, and delivered on tight timelines.

Typical shutdown design work includes:

  • Conveyor upgrades and chute modifications
  • Pump station upgrades
  • Structural steel modifications
  • Pipework rerouting
  • Equipment replacement projects

With accurate plant models and detailed mechanical drafting, shutdown installations can proceed with minimal disruption to production.

Learn more about shutdown engineering support:

Why 3D Laser Scanning is Critical During Mining Shutdowns

Materials Handling System Design

A large portion of mining mechanical engineering focuses on bulk materials handling systems.

These systems include:

  • Conveyors and drive systems
  • Transfer chutes and loading points
  • Storage bins and hoppers
  • Feeders and discharge systems

Engineering design must consider:

  • Flow characteristics of the material
  • Wear and abrasion resistance
  • Maintenance access
  • Structural loads and equipment interfaces

When properly designed, materials handling systems improve plant reliability and reduce maintenance costs.

Structural Integration in Mechanical Design

Mechanical equipment rarely operates independently. It must integrate with structural steel, concrete foundations, and existing infrastructure.

This requires coordination between:

  • Mechanical engineers
  • Structural engineers
  • drafting and modelling teams
  • site installation teams

At Hamilton By Design we integrate these disciplines within our modelling workflows to ensure mechanical systems are fully coordinated with plant infrastructure.

Engineering Services for Mining Operations

Hamilton By Design supports mining operations with a range of mechanical engineering services, including:

  • Mechanical equipment design
  • Conveyor and chute design
  • Pump system engineering
  • Structural steel interface design
  • Plant modification modelling
  • Engineering drafting and documentation
  • 3D laser scanning of existing infrastructure

Our engineering services are commonly used during:

  • plant upgrades
  • shutdown preparation
  • brownfield expansions
  • maintenance planning
  • infrastructure upgrades

Why Accurate Engineering Design Matters in Mining

Mining infrastructure operates under demanding conditions. Poor engineering design can lead to:

  • installation delays
  • shutdown overruns
  • equipment failures
  • safety risks

By combining accurate site capture, engineering modelling, and practical design experience, mechanical engineering teams can reduce project risk and deliver reliable infrastructure upgrades.

Mechanical Engineering Support for Mining Projects

Hamilton By Design works with mining companies, engineering contractors, and maintenance teams to deliver practical mechanical engineering solutions for mining infrastructure.

Our services combine:

  • site knowledge
  • engineering modelling
  • practical fabrication awareness
  • plant upgrade experience

To learn more about our mining engineering services visit:

Mechanical Engineering Consulting

Related Mechanical Engineering Articles

Further reading:

How Engineers Capture Existing Conditions Before Plant Upgrades
From Point Cloud to Engineering Model Workflow
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Mechanical Design Consultants Broken Hill โ€“ Engineering for Mining, Materials Handling and Industrial Durability

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Mechanical Design Consultants Broken Hill | Mining & Industrial Engineering

Broken Hill is more than an iconic Australian mining town โ€” itโ€™s a living industrial environment where mechanical design means engineering solutions that withstand harsh climate, challenging site conditions and highly specialised plant requirements.

At Hamilton By Design, we provide Mechanical Design Consultants Broken Hill services that go beyond drafting. We deliver practical engineering, fabrication-ready documentation and on-site validation for projects tied to mining, materials handling, industrial process systems and structural upgrades throughout the region.

Broken Hill mining mechanical engineering visual with site verification, conveyors, pump skids and steelwork design.

Why Mechanical Design in Broken Hill Is Unique

Broken Hillโ€™s heritage and industrial character make it unlike typical metropolitan engineering contexts. Key factors influencing mechanical design here include:

Mining Legacy and Heavy Industry
Broken Hillโ€™s economy is centred on mining โ€” zinc, lead, silver and associated concentrates. Mechanical design solutions must integrate with existing plant infrastructure, high wear environments and heavy materials handling.

Harsh Climate Conditions
Extreme summer heat, dusty conditions and significant thermal expansion cycles impact equipment life and material performance. Engineering design must account for thermal stresses, corrosion resistance and maintainability over extended asset life.

Remote Logistics and Cost Sensitivity
Because Broken Hill is distant from major fabrication centres, rework and revision errors are expensive in both time and cost. Mechanical design must be right the first time with robust documentation and controlled revision systems.

Mechanical Design Services Tailored to Broken Hill Industry

Hamilton By Design provides a range of mechanical design consulting services that support Broken Hillโ€™s key industrial and mining projects.

Chute Design & Transfer Systems

Material flow equipment such as chutes and transfer points are critical in mining operations. We design and optimise:

  • Rock and ore chutes
  • Dust-controlโ€‰feed transfers
  • Wear-liner selection and replaceable panels
  • Structural support interfaces

Our designs minimise plugging, reduce abrasion wear and improve operational reliability within dusty and high-impact environments.

Conveyor Systems

Conveyors move heavy materials across site, often over extended distances and challenging terrain. Design considerations we incorporate include:

  • Conveyor frame layout and structural routing
  • Loading and take-up systems
  • Belt alignment and tensioning
  • Access platforms and maintenance walkways
  • Integration with processing plant interfaces

Our designs are 3D modelled, clash-checked and documented for first-time fabrication and installation.

Pump Skids and Process Mechanical

Hydraulic systems and processing modules require precise mechanical design, especially in mobile or modular mining applications:

  • Pump skid engineering
  • Piping layout and support design
  • Equipment anchoring and vibration isolation
  • Corrosion protection in abrasive or corrosive environments

We produce fabrication-ready documentation and coordinated layouts that fit site constraints and satisfy engineering governance.

Steelwork, Cranes and Structural Interfaces

Heavy steelwork and lifting systems are common in Broken Hill facilities. Our services include:

  • Structural support and lifting frame design
  • Workshop steel detailing
  • Light crane and jib crane integration
  • Lift points, access platforms and walkways
  • Compliance with Australian steelwork and crane standards

Whether upgrading existing infrastructure or designing new installations, our mechanical design integrates structure and mechanical integrity.

Brownfield Engineering and On-Site Validation

Many Broken Hill projects occur in live facilities with legacy equipment and tight access constraints. Hamilton By Design uses verification methods such as laser scanning and measured site capture to reduce design assumptions and ensure fit-for-site outcomes.

By combining 3D modelling with real-world site conditions, we eliminate costly guesswork and minimise installation revisions.

Governance and Documentation that Reduces Risk

High freight costs, remote fabrication and limited on-site rework options mean that mechanical design documentation must be perfectly controlled. We deliver:

  • Revision-controlled issue states (Concept โ†’ Design โ†’ Review โ†’ IFC)
  • Clear markups and revision histories
  • Digital engineering workflows
  • Maintainability-centred design

This structured approach improves contractor alignment, reduces RFIs and lowers risk across the project lifecycle.

Supporting Mining and Industrial Clients in Broken Hill

From conveyor upgrades to chute optimisation, pump skid engineering to structural crane work, Hamilton By Design applies disciplined mechanical design that solves real Broken Hill problems.

We work with:

  • Mining operations and concentrator plants
  • Materials handling facilities
  • Industrial process upgrades
  • Remote site mechanical installations

Our designs are engineered for durability, constructability and long-term performance.

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Mechanical Design Consultants Broken Hill โ€“ Letโ€™s Talk

If your project in Broken Hill or regional NSW requires experienced mechanical design consulting โ€” whether itโ€™s conveyors, chutes, steelwork, process modules or structural interfaces โ€” Hamilton By Design is ready to support you with practical engineering that works on site.

Contact us today to discuss your mechanical design needs and get solutions that are precise, controlled and ready to build.

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Mechanical Engineering Services on the Central Coast (NSW)

Engineer and client conducting site scanning near Central Coast Stadium in Gosford

Mechanical Engineering Services Central Coast NSW | Hamilton By Design Co.

Hamilton By Design Co. provides engineer-led mechanical engineering services across the Central Coast, supporting clients in Wyong, Gosford, Tuggerah, and Somersby with practical, site-based engineering and rapid-response project support.

We specialise in design, drafting, fabrication support, and advanced 3D LiDAR scanning, helping construction, food & beverage, and manufacturing businesses upgrade plant, replace critical components, and keep operations running when OEM lead times are too long.

If you need local, responsive mechanical engineers who understand how things are actually built and installed on site, our team is ready to help.

๐Ÿ‘‰ For our Wyong-based mechanical engineering services, see:
Mechanical Engineers in Wyong โ€“ Hamilton By Design Co.
https://www.hamiltonbydesign.com.au/nsw-central-coast/mechanical-engineers-in-wyong/

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3D LiDAR scanning services on the Central Coast providing engineering-grade laser scanning, point cloud capture, scan-to-CAD modelling and industrial reality capture for infrastructure and industrial projects.
Drafting services on the Central Coast providing engineering drawings, fabrication detailing, as-built documentation, reverse engineering and CAD drafting for industrial and infrastructure projects.
Mechanical engineering services on the Central Coast providing industrial design, plant inspections, pump calculations, reverse engineering and engineering support for manufacturing, infrastructure and heavy industry projects.

Engineer-Led Mechanical Engineering You Can Rely On

Unlike drafting-only providers, Hamilton By Design is an engineer-led team with in-house machining and fabrication capability. This means your designs are developed with real-world manufacturing and installation in mind โ€” reducing rework, clashes, and costly site delays.

Our engineers work directly with your site teams, fabricators, and contractors to ensure solutions are practical, compliant, and delivered fast.

We support projects from:

  • Concept and feasibility
  • Problem-solving and plant modifications
  • Upgrades and replacements
  • Reverse engineering of existing equipment
  • Engineering certification and compliance

All work is completed to Australian and relevant international standards.

Advanced 3D LiDAR Scanning for Accurate Fit-Up

We use engineering-grade 3D LiDAR terrestrial scanning to capture existing plant and structures with high accuracy, allowing us to design components that fit first time.

Our scanning accuracy:

  • ยฑ2 mm over 70 metres
  • Suitable for structural steel, pipework, conveyors, platforms, and equipment layouts
  • Reduces shutdown time and site rework

Scan data is integrated directly into our SolidWorks 3D CAD and FEA workflows, ensuring your designs are based on real-world conditions โ€” not assumptions or outdated drawings.

Mechanical Engineering Services We Provide

๐Ÿ”ง Design & Drafting

  • SolidWorks 3D modelling
  • Manufacturing and fabrication drawings
  • Installation drawings
  • As-built documentation
  • Compliance-ready documentation

๐Ÿ”ฅ FEA โ€“ Structural & Thermal Analysis

  • Structural stress analysis
  • Thermal modelling
  • Design optimisation
  • Engineering reports for certification and compliance

๐Ÿญ Fabrication & Machining Support

  • In-house machining capability
  • Fabrication-ready drawings
  • Tolerancing for real manufacturing conditions
  • Support through build and installation

๐Ÿ›  Certification & Compliance

We support engineering sign-off and certification for:

  • Structural frames and platforms
  • Building services modifications
  • Plant and equipment upgrades
  • Pressure and load-bearing components
  • Safety-critical mechanical systems

Industries We Support on the Central Coast

๐Ÿ— Construction & Building Services

We support builders and contractors with:

  • Mechanical design for plant rooms and services
  • Structural steel modifications
  • Site fit-up verification using LiDAR scans
  • Compliance documentation and certification support

๐Ÿฅซ Food & Beverage Processing

We assist manufacturers with:

  • Production line upgrades
  • Replacement of OEM components
  • Hygienic design considerations
  • Fast turnaround to minimise downtime

โš™ Manufacturing & Industrial Equipment

We regularly deliver:

  • Reverse engineered components
  • Custom machinery design
  • Retrofit and upgrade solutions
  • Short-run replacement parts when OEM supply is delayed
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Solving Real-World Plant Problems โ€” Fast

Most clients contact us when:

  • OEM replacement parts have long lead times
  • Plant upgrades must happen during short shutdown windows
  • Existing drawings are inaccurate or missing
  • Modifications must fit into congested plant areas
  • Production downtime is costing money

Our site-based approach combined with rapid design, analysis, and fabrication support allows projects to move forward quickly and safely.

Local Mechanical Engineers for Wyong, Gosford, Tuggerah & Somersby

We provide on-site mechanical engineering services across the Central Coast, including:

  • Wyong
  • Gosford
  • Tuggerah
  • Somersby industrial areas

Site visits are available, and we also provide remote engineering support using 3D scan data and CAD models where appropriate.

Speak With a Mechanical Engineer โ€” Fill Out the Form Below

If you need support with plant upgrades, replacement components, design verification, or urgent mechanical modifications, our team is ready to assist.

๐Ÿ‘‰ Please fill out the enquiry form below and one of our engineers will contact you to discuss your project.

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For Wyong-specific services, you can also visit:

Mechanical Engineers in Wyong
Engineering the Central Coast: From Gosford to Wyong with 3D Scanning, Steel Frames & Design
Engineering-Grade LiDAR Scanning
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Engineering & 3D Scanning Services โ€“ Gosford & Central Coast NSW
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Beyond Assumptions: Why Accurate Geometry and LiDAR Scanning are the Gold Standard for Modern Projects
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SolidWorks Contractors in Australia | Hamilton By Design
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SolidWorks Perth | Engineering-Led SolidWorks Drafting Services

Engineering-led SolidWorks drafting in Perth with 25 years of Hamilton By Design experience

If youโ€™re searching for SolidWorks Perth, youโ€™re likely looking for reliable SolidWorks drafting support that produces drawings and models that fabricate and install correctly โ€” not just CAD files that look good on screen.

Hamilton By Design provides engineer-led SolidWorks drafting services in Perth, supporting WA fabricators, contractors, and industrial operators with fabrication-ready documentation and practical engineering judgement.

Engineer-Led SolidWorks Drafting Support for Perth & WA Projects

Perth projects often involve brownfield assets, tight access, and programmes where mistakes turn into rework, delays, and cost. The biggest risk isnโ€™t โ€œcan we model it?โ€ โ€” itโ€™s whether the drawings reflect:

  • Site reality
  • Fabrication constraints
  • Tolerances and interfaces
  • Installation sequencing and access

Thatโ€™s why our SolidWorks drafting is engineering-led.

Who Engages SolidWorks Drafting Services in Perth

Perth clients commonly engage us when they need to:

  • Outsource SolidWorks drafting with engineering oversight
  • Update or recreate drawings that no longer match existing plant
  • Add drafting capacity during tenders, shutdowns, or project spikes
  • Produce workshop drawings that fabricators can build from
  • Reduce fit-up risk on modifications and upgrades

Many enquiries start as โ€œhire a SolidWorks drafter Perthโ€ โ€” but our service is built for clients who also want engineering judgement behind every drawing.

SolidWorks Drafting Services We Provide in Perth

Our Perth SolidWorks drafting support includes:

  • Mechanical part and assembly drafting
  • Fabrication-ready workshop drawings
  • Structural and support steel detailing (where applicable)
  • Upgrade and modification drawing packages
  • Reverse-engineered part drawings (from site data)
  • As-built documentation and drawing updates
  • CAD outputs suitable for fabrication workflows and project handover

All deliverables are created with fabrication and installation readiness in mind โ€” not just CAD accuracy.

Why Engineering-Led Drafting Matters

SolidWorks is a powerful platform, but CAD alone does not prevent project failure.

Engineering-led drafting helps Perth teams by:

  • Reducing tolerance and interface clashes before fabrication
  • Producing drawings that are clear and buildable under real constraints
  • Supporting tender-stage decisions with accurate documentation
  • Minimising rework and improving shutdown certainty

This approach is particularly valuable on brownfield and shutdown-critical works in WA.

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Need Extra Drafting Capacity? Secondment Available

If your Perth team needs extra drafting capacity integrated into your workflow, we also offer engineering-led secondment services.

Learn more about Secondment Services

Secondment is ideal for:

  • Fabricators scaling up for tenders
  • Project teams during peak design / drafting loads
  • Shutdown and brownfield upgrade packages requiring close coordination

Industries We Commonly Support Around Perth

We support SolidWorks drafting and engineering documentation for:

  • Mining services and resources contractors
  • Oil & gas / energy infrastructure
  • Fabrication and structural steel workshops
  • Ports, logistics, and bulk handling facilities
  • Manufacturing and industrial maintenance teams

Whether youโ€™re in Perth metro, Kwinana, Henderson, or supporting regional WA operations, we can deliver drafting support with clear scope and disciplined outputs.

Our clients:

How We Differ From Drafting-Only Providers

Many drafting vendors deliver CAD files but do not own fit-up risk.

Hamilton By Design provides:

  • Engineering ownership, not drafting in isolation
  • Fabrication-aware drawings aligned to real build constraints
  • Better interface clarity and reduced interpretation risk
  • Accountable outputs suited to procurement, fabrication, and installation

This is drafting designed to perform on site.

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Speak With an Engineer About SolidWorks Drafting in Perth

If youโ€™re looking for SolidWorks drafting support in Perth โ€” whether as a defined drafting package or embedded secondment โ€” letโ€™s talk early and reduce risk before fabrication begins.

Use the contact form below to discuss your Perth SolidWorks drafting requirements.

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Industrial Machinery & Plant Systems Design

Industrial Machinery & Plant Systems Design

Consulting-led mechanical engineering for mining, processing and manufacturing operations

Practical, engineered solutions for brownfield and greenfield industrial facilities

Hamilton By Design provides consulting-led mechanical engineering for complex industrial systems across mining, mineral processing, manufacturing and heavy industry.

We specialise in designing, upgrading and optimising machinery and plant systems that must perform reliably under real operating conditions โ€” high loads, abrasive materials, continuous duty cycles, demanding shutdown windows and strict compliance requirements.

Whether you’re introducing new equipment, modifying existing systems or expanding production capacity, we help you move from concept to construction with clarity, accuracy and confidence.

How We Support Your Plant & Machinery Projects

Our consulting team works from the problem outward โ€” understanding your operational objectives, constraints and shutdown timelines before we begin design.

We help clients:

  • Upgrade brownfield equipment while minimising downtime and rework
  • Design new machinery and plant systems aligned to production targets
  • Resolve recurring performance, wear, or reliability issues through redesign
  • Integrate OEM equipment into complex existing facilities
  • Coordinate mechanical, structural and access requirements in one model
  • Prepare fabrication-ready documentation that installers and workshops can rely on

Our engineering process combines real site experience, 3D CAD modelling, FEA where needed, and โ€” for brownfield work โ€” engineer-led 3D LiDAR scanning to ensure accuracy.

What We Design

Hamilton By Design delivers mechanical systems and plant layouts across a wide range of industrial applications:

Bulk Materials Handling Systems

  • Conveyors (fixed, shiftable, overland, tripper gantries)
  • Transfer towers and conveyor galleries
  • Chutes, hoppers, bins and wear lining systems
  • Feeders, vibratory equipment and discharge systems

Processing & Production Equipment

  • Screens, crushers, mills and separation equipment interfaces
  • Pumping systems, pipework, manifolds and slurry line transitions
  • Tanks, vessels, agitators and mechanical supports
  • Mechanical upgrades to maximise throughput or reliability

Plant Layouts & System Integration

  • Space-constrained brownfield layouts
  • New plant expansions and tie-ins
  • Mechanicalโ€“structural interface design
  • Access, maintenance and safety systems

Support Systems & Ancillary Equipment

  • Platforms, walkways, stairs and guarding
  • Maintenance stands, frames, skids and lifting/handling devices
  • Mobile and fixed equipment support structures

If it moves material, processes ore, mounts equipment or supports production, we can help design it.

Our Design Approach

Industrial plant design is never one-size-fits-all. Every project has operational realities, shutdown limits and site constraints. Our approach reflects that:

1. Understand the Operating Environment

We begin by understanding:

  • Production goals
  • Wear mechanisms
  • Availability targets
  • Maintenance constraints
  • Compliance and site standards

This ensures the design is grounded in how the plant is actually used โ€” not how it looks on paper.

2. Capture Accurate Existing Conditions

For brownfield sites, we integrate 3D LiDAR scanning to ensure all tie-ins, clearances and interfaces match reality.
This significantly reduces rework, clashes and on-site modification.

3. Develop Practical Mechanical Concepts

We generate design options that consider:

  • Material flow
  • Access and maintenance
  • Installation sequence
  • Transport and modularisation
  • Cost, complexity and risk

Options are presented with pros and cons so you can decide the best path forward.

4. Engineer the Details

Using SolidWorks and analysis tools, we refine:

  • Load paths and structural capacity
  • Wear management and replaceability
  • Supports, fixings and serviceability
  • Safety, guarding, access and compliance
  • Liner systems and flow optimisation

5. Verify Performance & Reliability

Where appropriate, we perform:

  • FEA for stress, fatigue and buckling
  • Check calculations for structural and mechanical compliance
  • Flow and material behaviour assessments
  • Vibration or modal checks for dynamic equipment

6. Produce Fabrication & Installation Documentation

We deliver:

  • 3D models
  • GA drawings
  • Fabrication details
  • BOMs and cutting lists
  • Installation notes
  • Tie-in and interface details

All documentation is prepared with fabricators, installers and shutdown teams in mind.

Where This Service Adds the Most Value

Hamilton By Designโ€™s industrial machinery and plant system design services are ideal for:

  • Shutdown-driven upgrades where every hour matters
  • Debottlenecking and throughput improvements
  • Wear and reliability redesigns of problem areas
  • Capacity expansions requiring new equipment or system reconfiguration
  • Brownfield integration of OEM machines into existing plants
  • New plant development where early layout and mechanical decisions set project success

Why Work With Hamilton By Design?

  • Engineer-led design process โ€” not drafting-first
  • Strong brownfield capability using 3D LiDAR for accuracy
  • Deep experience in mining and processing plants across Australia
  • Fabrication-ready deliverables developed with real workshops in mind
  • Clear, actionable advice grounded in practical engineering
  • Single-source accountability from site capture to drawings

We bridge the gap between concept and install โ€” reducing risk, improving reliability and ensuring your plant systems actually work in the real world.

Hamilton By Design logo displayed on a blue tilted rectangle with a grey gradient background
3D LiDAR scanning and 3D modelling service button โ€” laser scanner capturing a point cloud for engineering and CAD modelling
Mechanical engineering services

Letโ€™s Talk About Your Next Plant or Machinery Project

Whether youโ€™re planning a major upgrade, resolving a long-standing performance issue, or designing a new facility, our team can support you with clear, practical and engineering-driven solutions.

Contact Hamilton By Design to discuss your upcoming project, or explore our related services:

  • Mechanical Design & Custom Equipment Layouts
  • 3D CAD Modelling & Mechanical Drafting
  • 3D LiDAR Scanning for As-Built & Brownfield Engineering
  • FEA & Mechanical/Structural Assessment
  • SolidWorks Sustainability Tools & Material Optimisation

Weโ€™re ready to help you design industrial systems that perform โ€” safely, reliably and efficiently.

Our Clients

3D LiDAR Scanning for As-Built & Brownfield Engineering
Mechanical Engineering Consulting
Manufacturing and Production Services
Mechanical Engineering – The Mining Industry
LOD in BIM vs Reality Capture โ€“ Why the Industry Has Moved On
Mining Plant Upgrades with Engineering-Grade 3D Laser Scanning
Finite Element Analysis (FEA) engineering simulation button
Mechanical engineering services
Engineering Data Governance & 3DEXPERIENCE Platform
Australian Design Drafting Services
Mechanical Engineering Consulting
SolidWorks
3D Laser Scanning for Engineering