Why Mechanical?
Mechanical engineering has been our foundation for nearly 15 years, driving everything we do. From resource structures to high-volume consumer products, we’ve built a reputation for fast, practical, and cost-effective outcomes. Our experienced engineers deliver efficient solutions, extending your team’s capabilities or managing projects from concept to production.
Our Guarantee
We stand by our work and your success. We guarantee to deliver within your budgeted time and cost—providing reliable outcomes that drive your project forward.
How we engineer
The Right Tools: From sketches and CAD to FEA, CFD, and DEM, we use only value-adding techniques.
Team Integration: Our experts enhance your team with cross-industry problem-solving.
Practical Designs: Focused on manufacturability, prototyping, and cost efficiency.
End-to-End Support: From concept to production, we ensure smooth project execution.
OUR SERVICES
Computer Aided Design (CAD)
3D modelling and design solutions for a wide range of mechanical components and assemblies. Using advanced CAD tools, we create detailed designs optimised for functionality, manufacturability, and performance. Our expertise also extends to industrial design, drafting, and technical drawings.
Finite Element Analysis (FEA)
Analyse how your product will perform under real-world conditions like stress, heat, and vibration. We do this by dividing a 3D model into small elements for detailed analysis, allowing our engineers to assign material properties, apply loads, and examine the results. This identifies potential weaknesses and provides insights for targeted design improvements.
Discrete Element Modelling (DEM)
Evaluate particle interactions and bulk material behaviour. Using Rocky DEM, we analyse granular flow, particle collisions and material handling processes to optimise the design and performance of your equipment. Our expertise ensures that your systems handle materials reliably, reducing wear and preventing issues in applications involving powders, aggregates, and other bulk materials.
Computational Fluid Dynamics (CFD)
Optimise your designs for fluid flow and thermal performance. We use advanced tools like ANSYS and SolidWorks to analyse fluid behaviour, heat transfer, and airflow dynamics within and around your products. We evaluate and refine designs to improve efficiency, cooling, and pressure management, ensuring your systems perform reliably under real-world conditions.
Certification Compliance
Ensure your designs comply with all required Australian and international standards. We guide your products through certification processes by ensuring compliance with AS/NZS, ISO, and industry-specific standards. Through testing and documentation we ensure your designs meet safety, quality and regulatory requirements.
Prototyping
Take your project from design to prototype. Using rapid prototyping technologies like 3D printing and CNC machining, we create functional prototypes that allow for hands-on evaluation and iterative improvements. Our prototyping capabilities enable quick design validation, helping you refine and optimise products before moving on to full-scale production.
Testing
Ensure product reliability and performance with our comprehensive testing solutions. We offer load testing, vibration analysis, thermal testing, and strain gauging to verify that your products meet safety, durability, and compliance standards, giving you confidence in their readiness for market deployment.
Save 43.5% on development with us!
As an Australian Government-approved Research Service Provider, our work may qualify for a 43.5% cost reduction.
Any new product or technology development, including support costs, is eligible for a 43.5% tax benefit. We’ll guide you through the process to ensure compliance and maximize your R&DTI benefit.
CAPABILITIES
CAD
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3D Modelling
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CAD File Conversion
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Design and Optimisation
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Design for Manufacture (DFM) and Assembly (DFA)
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Drafting
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Industrial Design
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Reverse Engineering
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Technical Drawings
FEA
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Buckling Analysis
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Composite Material Analysis
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Contact and Friction Analysis
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Dynamic Analysis
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Fatigue and Life Cycle Analysis
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Fluid-Structure Interaction (FSI)
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Impact and Crash Simulation
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Nonlinear Analysis
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Static Structural Analysis
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Thermal Analysis
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Thermal-Mechanical Coupling
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Vibration and Modal Analysis
DEM
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Bulk Material Handling Optimisation
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Compaction and Packing Analysis
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Crushing and Grinding Analysis
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DEM-CFD Couple Simulation
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Fluid-Particle Interaction
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Granular Flow Analysis
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Mixing and Blending Analysis
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Particle Size and Shape Analysis
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Silo and Hopper Flow Analysis
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Wear and Abrasion Analysis
CFD
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Aeroacoustics and Noise Prediction
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Combustion and Reaction Modelling
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Cooling Systems and Design Optimisation
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Environmental and HVAC Flow Analysis
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Flow Simulation and Optimisation
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Fluid-Structure Interaction (FSI)
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Heat Transfer and Thermal Management
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Mixing and Blending Analysis
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Multiphase Flow Analysis
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Particle Tracking and Contaminant Dispersion
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Pressure Drop and Flow Resistance Analysis
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Turbulence Modelling
Certification Compliance
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Australian and International Standards
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AS/NZS4100
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AS/NZS1170
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ISO9001
Prototyping
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CNC Machining
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3D Printing
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Liquid Silicone Moulding
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Sheet Metal Fabrication
Testing
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Leak and Pressure
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Load testing
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Non-Destructive Testing
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Strain Gauging
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Vibration Testing
Want to get started?
Reach out to Daniel Berti, Lead Mechanical Engineer.