LFAM for

Marine

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Why Additive Manufcaturing for Marine?

The challenges of marine environments demand robust and efficient solutions. With cutting-edge manufacturing technologies, we help create corrosion-resistant, lightweight components tailored to enhance vessel performance and operational longevity.

Corrosion Resistance

Materials built for saltwater and extreme conditions.

Lightweight Durability

Strong yet efficient components for superior performance.

Custom Fabrication

Tailored designs for unique marine needs.

Rapid Production

Faster manufacturing and deployment.

Sustainability

Foster eco-conscious learning with reduced material waste.

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Marine Applications

  • BOAT HULLS

  • MASTER MOULDS & IMPLANTS

    STRUCTURAL COMPONENTS

  • STRUCTURAL SUPPORTS

    SPECIALISED JIGS & TOOLING

  • BOAT HULLS

  • MASTER MOULDS & IMPLANTS

    STRUCTURAL COMPONENTS

  • STRUCTURAL SUPPORTS

    SPECIALISED JIGS & TOOLING

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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.

BLOG

FAQ

What category of manufacturing does 3D printing belong to?

What category of manufacturing does 3D printing belong to?

What category of manufacturing does 3D printing belong to?

Are additive manufacturing and 3D printing the same, or do they differ?

Are additive manufacturing and 3D printing the same, or do they differ?

Are additive manufacturing and 3D printing the same, or do they differ?

How does additive manufacturing differ from traditional manufacturing methods?

How does additive manufacturing differ from traditional manufacturing methods?

How does additive manufacturing differ from traditional manufacturing methods?

What are the main benefits of additive manufacturing?

What are the main benefits of additive manufacturing?

What are the main benefits of additive manufacturing?

Why choose LFAM solutions to produce parts?

Why choose LFAM solutions to produce parts?

Why choose LFAM solutions to produce parts?

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?

Let’s Shape the Future Together with Additive Manufacturing.

Talk to our experts about your additive manufacturing needs.

Let’s Shape the Future Together with Additive Manufacturing.

Talk to our experts about your additive manufacturing needs.

Let’s Shape the Future Together with Additive Manufacturing.

Talk to our experts about your additive manufacturing needs.

|

Why Additive Manufcaturing for Marine?

The challenges of marine environments demand robust and efficient solutions. With cutting-edge manufacturing technologies, we help create corrosion-resistant, lightweight components tailored to enhance vessel performance and operational longevity.

|

Why Additive Manufcaturing for Marine?

Corrosion Resistance

Materials built for saltwater and extreme conditions.

Lightweight Durability

Strong yet efficient components for superior performance.

Custom Fabrication

Tailored designs for unique marine needs.

Rapid Production

Faster manufacturing and deployment.

Sustainability

Eco-conscious production with reduced waste.


The challenges of marine environments demand robust and efficient solutions. With cutting-edge manufacturing technologies, we help create corrosion-resistant, lightweight components tailored to enhance vessel performance and operational longevity.

Corrosion Resistance

Materials built for saltwater and extreme conditions.

Lightweight Durability

Strong yet efficient components for superior performance.

Custom Fabrication

Tailored designs for unique marine needs.

Rapid Production

Faster manufacturing and deployment.

Sustainability

Foster eco-conscious learning with reduced material waste.

|

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.

|

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.