Industries
Hyperion caters to a broad range of industries with large-format 3D printing capabilities for large scale projects. Our expertise seamlessly extends from construction and furniture to public art, defence, and marine applications, empowering your production with innovative solutions.
| Marine
Revolutionising marine manufacturing, we produce complex, optimised parts that enhance performance—from prototypes and moulds to structural components and entire boat hulls. Our flexible processes allow for custom solutions tailored to your specific needs.
Advantages
Flexibly Optimised Parts Produced with Special Materials
Design Freedom
Rapid Production
Sustainable Manufacturing
Advantages
Applications
Rapid Prototypes
Moulds and Plugs
Structural End Parts
Applications
Applications
Structural End Parts
Structural End Parts
Moulds and Plugs
Moulds and Plugs
Rapid Prototypes
Rapid Prototypes
Applications
Structural End Parts
Structural End Parts
Moulds and Plugs
Moulds and Plugs
Rapid Prototypes
Rapid Prototypes
| Construction
Bringing intricate designs to life, we minimise waste, reduce costs, and accelerate the production of complex forms. Whether it's detailed façade elements or lightweight onsite casting moulds, our bespoke solutions can be utilised in situ, transforming building projects with ease.
Advantages
On-site fabrication
Time Saving
Geometric Complexity
Flexible Process
Recycled Materials
Applications
Concrete Forms
Large Moulds
Structural End Parts
Applications
Applications
Concrete Forms
Concrete Forms
Structural End Parts
Structural End Parts
Large Moulds
Large Moulds
| Construction
Hyperion revolutionises construction and architecture with efficient large scale 3D printing for intricate designs. Our large scale 3D printing minimises waste, cuts costs, and accelerates production of complex forms, from detailed restorations to lightweight onsite casting moulds. Embrace innovation and transform your building projects with our bespoke solutions.
Applications
Concrete Forms
Concrete Forms
Structural End Parts
Structural End Parts
Large Moulds
Large Moulds
Advantages
TIme Saving
Geometric Complexity
Flexible Process
Bio-Based & Recycled Materials
Zero Waste
Reduced Carbon Emissions
| Defence
Hyperion elevates defence capabilities with advanced thermoplastics engineered for superior strength, durability, and versatility, defining a new benchmark for innovation in defence technologies.
Applications
Rapid Prototypes
Rapid Prototypes
Structural End Parts
Structural End Parts
Customised and Advanced Equipment
Customised and Advanced Equipment
Advantages
Rapid Deployment
Complex Customisation
Versatile Manufacturing
Material Innovation
Supply Chain Efficiency
Sustainable Manufacturing
| Defence
We set new benchmarks in defence innovation by providing robust and adaptable solutions using advanced thermoplastics engineered for superior strength and durability. Our technology can be deployed remotely or on-site, meeting the demanding requirements of the defence sector wherever needed.
Advantages
Rapid Deployment
Complex Customisation
Versatile Manufacturing
Material Innovation
Supply Chain Efficiency
Sustainable Manufacturing
Applications
Rapid Prototypes
Structural End Parts
Customised and Advanced Equipment
| Furniture
Hyperion transforms furniture production with our advanced additive manufacturing capabilities, enabling the crafting of innovative and customised pieces. Recyclable Materials available.
Applications
Rapid Prototypes
Rapid Prototypes
Bespoke Constructions
Bespoke Constructions
Sustainable and Eco-Friendly
Sustainable and Eco-Friendly
Advantages
Design Freedom
Customised, On Demand
Innovative Materials
Efficiently Used Resources
Reduced Waste Production
Low-Cost, Rapid Production
| Furniture
We transform furniture and interior design through additive manufacturing, crafting innovative and customised pieces. By using recyclable materials, we promote sustainability while bringing unique and personalised designs to life.
Advantages
Design Freedom
Customised, On Demand
Reduced Waste Production
Low-Cost, Rapid Production
Applications
Rapid Prototypes
Bespoke Constructions
Sustainable & Eco Friendly
Applications
Applications
Rapid Prototypes
Rapid Prototypes
Bespoke Constructions
Bespoke Constructions
Sustainable and Eco-Friendly
Sustainable and Eco-Friendly
| Education
Educational institutions leverage our advanced large-format 3D printing to create intricate, optimised parts for a variety of academic and research purposes. We support innovative learning and practical applications—from prototypes to functional models—tailored to meet educational needs.
Advantages
Hands on Learning
Customised Educational Tools
Sustainable Practices
Applications
Rapid Prototypes
Custom teaching aids and demonstration models
Research tools and functional parts
Applications
Applications
Rapid Prototypes
Custom teaching aids and demonstration models
Research tools and functional parts
| Education
Hyperion offers advanced large format 3D printing services for educational institutions, enabling the creation of intricate, optimised parts for a wide range of academic and research purposes. Our technology supports innovative learning and practical applications, from prototypes to functional models, tailored to meet educational needs.
Advantages
Hands on Learning
Customised Educational Tools
Sustainable Practices
Applications
Rapid Prototypes
Custom teaching aids and demonstration models
Research tools and functional parts
| Our Process
01
Scope & Requirements
Our team discusses your project’s designs and requirements with you. Modifications to your design are made to optimise it for the 3D printing process. A material is selected based on your requirements. Post-processing steps are mapped out.
Design & Simulation
Your project's time, weight and resolution are estimated in more detail at this stage. The print is simulated from start to finish using Hyperion's digital twin software. The project is uploaded to our machine and manufactured as a layered 3D shape.
02
03
Manufacturing
Your project is swiftly 3D printed on our machines. Any required post-processing steps are carried out prior to finishing for delivery. Post-processing steps include milling, sanding, filling, or painting.
Let’s Shape the Future Together with Additive Manufacturing.
Let’s Shape the Future Together with Additive Manufacturing.
Let’s Shape the Future Together with Additive Manufacturing.
FAQ
FAQ
FAQ
Why should I opt for 3d printing?
Why should I opt for 3d printing?
Why should I opt for 3d printing?
Can you help design parts so it is compatible with 3d printing?
Can you help design parts so it is compatible with 3d printing?
Can you help design parts so it is compatible with 3d printing?
What software do you use?
What software do you use?
What software do you use?
How do I decide which material is most suitable to print with?
How do I decide which material is most suitable to print with?
How do I decide which material is most suitable to print with?
Who will own the copyright to the printed object or material?
Who will own the copyright to the printed object or material?
Who will own the copyright to the printed object or material?
| Our Process
01
01
Scope & Requirements
Scope & Requirements
Our team discusses your project’s designs and requirements with you. Modifications to your design are made to optimise it for the 3D printing process. A material is selected based on your requirements. Post-processing steps are mapped out.
Our team discusses your project’s designs and requirements with you. Modifications to your design are made to optimise it for the 3D printing process. A material is selected based on your requirements. Post-processing steps are mapped out.
Design & Simulation
Design & Simulation
Your project's time, weight and resolution are estimated in more detail at this stage. The print is simulated from start to finish using Hyperion's digital twin software. The project is uploaded to our machine and manufactured as a layered 3D shape.
Your project's time, weight and resolution are estimated in more detail at this stage. The print is simulated from start to finish using Hyperion's digital twin software. The project is uploaded to our machine and manufactured as a layered 3D shape.
02
02
03
03
Manufacturing
Manufacturing
Your project is swiftly 3D printed on our machines. Any required post-processing steps are carried out prior to finishing for delivery. Post-processing steps include milling, sanding, filling, or painting.
Your project is swiftly 3D printed on our machines. Any required post-processing steps are carried out prior to finishing for delivery. Post-processing steps include milling, sanding, filling, or painting.
Our Process
01
Scope & Requirements
Scope & Requirements
Our team discusses your project’s designs and requirements with you. Modifications to your design are made to optimise it for the 3D printing process. A material is selected based on your requirements. Post-processing steps are mapped out.
Our team discusses your project’s designs and requirements with you. Modifications to your design are made to optimise it for the 3D printing process. A material is selected based on your requirements. Post-processing steps are mapped out.
Design & Simulation
Design & Simulation
Your project's time, weight and resolution are estimated in more detail at this stage. The print is simulated from start to finish using Hyperion's digital twin software. The project is uploaded to our machine and manufactured as a layered 3D shape.
Your project's time, weight and resolution are estimated in more detail at this stage. The print is simulated from start to finish using Hyperion's digital twin software. The project is uploaded to our machine and manufactured as a layered 3D shape.
02
03
Manufacturing
Manufacturing
Your project is swiftly 3D printed on our machines. Any required post-processing steps are carried out prior to finishing for delivery. Post-processing steps include milling, sanding, filling, or painting.
Your project is swiftly 3D printed on our machines. Any required post-processing steps are carried out prior to finishing for delivery. Post-processing steps include milling, sanding, filling, or painting.