Digital Manufacturing Revolution in Marine, Defence and Maritime

3D printing, also known as additive manufacturing, has proved useful for small jobs on board ships, but past problems of using commercial ‘desktop’ printers have included a slow print speed, the necessity of carrying sufficient print materials, and the inherent weakness of printed parts from this equipment.

Also, when on board, the printer is sensitive to the power fluctuations of the ship’s electrical system which causes the machine to need resetting on a regular basis.

More recent industrial 3D printing technologies have advanced considerably to overcome these issues, and can now print a variety of different materials to a high specification with the properties needed by the sector - for example, previously cast metal high load parts for propellors and crane hooks can now be 3D printed using direct metal laser sintering.

However, the equipment required is generally too expensive and large to be present on site. External digital manufacturing partners can help bring previously mentioned benefits to the industry without the equipment requirements, but sadly they remain largely underutilised, possibly because of a lack of understanding about what recent advances in the technology and in material science can achieve.

There is also a growing trend towards using CNC machining to produce complex functional parts for marine and defence based applications. For example, a tooth wheel, which has projections at precisely equal distances apart, with corresponding indentations or spaces between them, is an ideal candidate for metal CNC machining.

CNC machines are capable of accurately trimming excess material, perfectly aligning the projections and indentations of the part and adding details through milling, grinding, turning, boring, reaming and threading, using specific machine tools for each task.

But rapid and highly accurate machining capabilities on board remain somewhat elusive, so operators are also beginning to turn to outsourcing this area of digital manufacturing.

Injection moulding is not new to the defence and marine industries which have used it for decades often to replace metal with plastic or engineered resins for parts and components that are strong, lightweight and durable. After all resins will survive extremely corrosive environments, such as salt water, without any extra processing.

Most people think of this technology for mass produced parts and believe that it can take several weeks or even months and be expensive to create tools; but advances in on demand rapid injection moulding, using aluminium moulds instead of steel, means that it is now common to use it for both prototyping and production of low to medium volumes of parts and components.

If you can find the right digital manufacturer then rapid injection moulding could provide the answer that you are looking for.

Digital manufacturing can deliver rapid, reliable and high-quality parts for marine and defence applications. It can also help develop bespoke engineering solutions for it and its supply chain, to help drive innovation.

One potential area for growth in 3D printing, CNC machining and rapid injection moulding is through the manufacture of spare parts where the original moulding casts no longer exist.

For 3D printing other opportunities lie in reviewing and exploring design possibilities to increase efficiency, create more robust designs and unlock decarbonisation benefits for parts such as deck and pipe fittings, valves, propulsion and braking components, and sensoring equipment.

Although the remote printing of spare parts is evident, deployment of the decentralised and high-performing ‘3D printer on a ship’ would appear to be a longer-term ambition. Current adoption of the technology will depend on the ability of digital manufacturing companies to overcome several factors, not least industry cultural barriers.

All three of these digital manufacturing technologies will need to prove the durability and reliability of the components that they produce and pass the most stringent tests of equivalence with existing products if they are to be specified for the extreme and demanding conditions that they will face. Evidence of quality certifications, accreditations and standards achieved will all support industry confidence.

Advantages of 3D printing:

• Rapid and accurate generation of prototypes and components, specifically where original moulding casts no longer exist.
• Tool-less manufacturing.
• Work with complex designs and geometries.
• Potential improvement of designs for items such as deck and pipe fittings, valves, propulsion and braking components, sensoring equipment.
• Suitability for work in relevant materials such as stainless steels, Inconel 718, titanium and aluminium.
• No, or fewer, subassemblies.
• A leaner inventory (digital warehouse).
• Fast/just in time part availability.
• Reduced downtime.
• Compliance with strict industry risk certification and quality standards.
• Lower carbon footprint through reduced manufacturing emissions.

There are a number of different 3D printing technologies and which is the best process for you will depend on a number of factors including: speed, cost, appearance, supported materials and the physical properties you need. In the early stages of prototyping, you may only need something that you can hold in your hand, whereas later stage prototyping and production of final parts will need very precise characteristics.

Following, we outline the different types of 3D printing available and their advantages and disadvantages.

What to consider when sourcing CNC machining:

• Some shops specialise in low-volume and prototype parts, like Protolabs, while others are geared toward production runs in the tens of thousands and more. Determining which part volumes any given manufacturer is most competitive with is an important first step.
• The most efficient shops are those that use standardised processes and toolsets. These reduce setup times and tooling costs for lower costs and a faster turnaround.
• Standard toolsets, however, come at a cost. For example, a lathe or machining centre with a fixed number of tools may need to make those tools perform double-duty—using an end mill to drill a hole, for instance, or a grooving tool to turn a journal or shaft.
• Look for a shop that can offer multiple manufacturing options. Though For you might think that 3D printing is the clear path to quick delivery of prototype parts, if your part design allows, machining is often more affordable for one-off or low volume options.
• Make sure you also consider a supplier’s on-time delivery rate, its overall machining capacity, and whether it is a service provider with in-house production vs. a broker.

JOSCAR Accreditation

JOSCAR (the Joint Supply Chain Accreditation Register) is a collaborative tool used by the defence industry (and associated marine sector) to act as a single repository for pre-qualification and compliance information. JOSCAR can determine if a supplier is ‘fit for business’. Protolabs has been awarded this accreditation.

What the supplier accreditation offers buyers:

• Comprehensive, accurate and regular updated insight into third party risk.
• Thousands of third parties in a single, searchable, reportable and easily accessible system.
• Instant access to third party information, reducing the time needed to qualify new suppliers or renew contracts.
• They check all third-party information in accordance with a consistent, objective and continually updated process.
• Shared costs amongst community members, significantly reducing the cost of an in-house solution.
• Access to the combined experience and resources of other members in the community with shared goals and challenges.

DNV-Approved 3D Printing

Additive manufacturing is a rapidly developing manufacturing technology within the marine defence and maritime industries. As its role increases the industry needs to be confident in the process and understand and minimise the potential risk of failure of a manufactured part.

DNV is one of the world’s largest classification and certification societies that approves 3D printed / additive manufactured products. With a long history as a trusted independent partner to the marine sector and with a broad range of expertise, DNV is able to provide the necessary assurance to deliver trust in digital manufacturing.

To examine the potential of additive manufacturing for the sector, they recently carried out a feasibility study on 3D printed products in marine and offshore industries – with very promising results. Based on these studies, they developed a new classification guideline for the approval of 3D printed products. Protolabs became the first powder bed 3D printing service provider in EMEA with such certification.

The certification includes a build process qualification for Inconel 718, a feedstock metal.

Inconel 718 is as a high-strength, corrosion resistant nickel chromium that hardens with age and can be readily fabricated, even into complex parts, and used within extreme hot and cold temperatures. The properties of Inconel 718 make it an ideal material for use in the maritime and offshore sectors due to its performance in extreme environments, along with its durability and anti-corrosion properties.

You can use Inconel 718 at temperatures between -252°C and 704°C due to its ability to create a thick, stable passivating oxide layer at high temperatures. Inconel has good tensile, fatigue, creep and rupture strength and, as a 3D printed metal, can exceed the mechanical properties of its cast and wrought counterparts.

The opportunities that digital manufacturing present to the marine, defence and maritime industries are considerable and will grow. 3D printing, CNC machining and injection moulding are helping these sectors:

• Achieve technological advancement
• Improve competitiveness and operational efficiencies
• Deliver precision engineering to the highest standards of quality and reliability
• Support greater safety
• Reduce carbon footprint

Exactly which of these digital manufacturing technologies you use will vary depending on your project. If you need your parts quickly however then digital manufacturing will play a crucial role. To find out more about Protolabs' capabilities visit our Services page, or feel free to contact us at +44 (0) 1952 683 047 or [email protected].