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Tuesday, December 24, 2024

Additive manufacturing in defence – 5 issues we learnt from the 2024 AMADS Convention



In Bristol, UK, the discourse amongst a 200-strong delegation goes as deep as submarine engineering and Greek Philosophy and as lofty as rocket engine manufacture and self-healing supplies. 

But a pointed comment from John Sneden, the Air Pressure Director of Propulsion on the US Air Pressure Life Cycle Administration Centre reminds all in attendance of the explanation they’re within the room. “If I’m at conflict and it takes 6-9 months to ship the half, how ineffective is that?”

Fairly ineffective these in attendance agree. That’s why they – the additive manufacturing operators and engineers, the enterprise leaders and heads of division – are right here. To determine, as a collective, how finest to evaluate additive manufacturing, how finest to undertake the expertise after which how finest to deploy it.

The setting is the 2024 Additive Manufacturing for Aerospace, Defence and House (AMADS) Convention, which has introduced collectively an assortment of allied companions, suppliers and OEMs to debate the challenges and alternatives of deploying additive manufacturing throughout the three fields.

At occasions, it seems like your entire room has the identical drawback with no answer in sight. The cohort is striving for perfection in a world whose imperfections are all too obvious – not least to the aerospace and defence delegates within the room. However that’s the usual they set.

No person right here has the solutions. Not less than not at present. However there are tidbits and morsels, elements and methods, visions and techniques that give the room a buoyancy.

Here is what we study. 

The Ministry of Defence has a imaginative and prescient, however no formal technique (but).

“What’s the Ministry of Defence doing with additive manufacturing at a high degree? The US has a method, the Australians have a method. What concerning the MOD?”

This can be a query Alexander Champion, Additive Manufacturing Undertaking Supervisor on the Ministry of Defence (MOD), is all too used to having to area. He understands it, in fact, as a result of the methods of the UK’s counterparts are simply accessible if you know the way to make use of a search engine. The UK’s plan, nonetheless, has not been that straightforward to grasp. Though, in equity, that goes past defence and aerospace.

However, Champion revealed at AMADS final week, a plan does exist. Extra particularly, the MOD has a ‘imaginative and prescient paper’, which is taken into account to be a pre-requisite for a extra outlined technique. This doc has not but been made public since it’s nonetheless topic to additional developments and changes but it surely represents a step in the suitable path.

Champion feedback: “In comparison with the place we had been two years in the past, we’re much more mature, much more coherent.”

Although no formal technique is but in place, the MOD and its Armed Forces divisions have been collaborating lately; sharing concepts and learnings because of the Undertaking TAMPA initiative.

Undertaking TAMPA is a 5 million GBP venture made up of 4 ‘spirals’ which might be centered on understanding how the MOD can profit from AM via the event of a collection of functions.

The event of those functions, which can possible improve in complexity with every spiral, is being accomplished within the context of a collection of working teams, such because the Digital Thread Working Group, the Certification Working Group, or the Stock Administration Working Group.

The Stock Administration Working Group, for instance, has seen a bracket for the Mastiff armoured patrol automobile additively manufactured as a part of Spiral 1. This bracket engages the door when the door is opened and usually breaks within the area. Sometimes, plasma chopping, two rounds of machining and welding processes are used to fabricate this part to the right accuracy, however the half may be made in a single piece with AM. Its weight can be diminished by 50% and it may be delivered in 2 weeks in comparison with 11 with conventional strategies.

As a result of the half is breaking down a lot, it’s thought-about an acceptable part to tell Undertaking Tampa’s Stock Administration Working Group, serving to the MOD and its suppliers to establish the ache factors within the provide chain and ensuring ‘there isn’t a excuse for additive manufacturing not for use in defence.’

Digital inventories shall be key – and NATO might need the reply! 

The MOD aren’t the one ones to have recognized AM’s potential to enhance the multi-faceted provide chains of the defence trade.

Dan Anders-Brown, who spent 30 years within the British Military – introducing AM into the organisation with Champion – earlier than becoming a member of QinetiQ, suggests that the largest drawback with AM within the defence house is the dearth of digitised stock.

“That is true of MOD, it’s true of defence, it’s additionally true of a few of our companions working in and round Ukraine,” Anders-Brown notes. “A number of printers have gone out to Ukraine and I feel that’s laudable and that provides them one other instrument of their toolbox, however with out the digital stock to assist that, it’s very tough for them to show that into one thing that may get a chunk of package again on the highway.”

Anders-Brown goes on to state that there are greater than one million spare elements within the UK defence stock and ‘the overwhelming majority of them don’t have any form of digital report.’ Of those who do have a digital report, plenty of them aren’t then designed for additive manufacturing. So, if the trade desires to undertake AM expertise to provide elements on the level of want, they’re going to wish to develop the digital infrastructure to facilitate it.

The North Atlantic Treaty Group (NATO) thinks it might have an answer. RAPiD-e is a digital repository idea being developed to permit NATO nations to publish, share, request and eat digital technical knowledge packages related to AM elements. The thought is that this platform will enable these nations and departments skilled in AM will help to get their allies, companions and suppliers on top of things sooner.

This platform will enable nations to create a number of personal repositories and shared libraries, that means it may be used to retailer AM design information unique to its personal nation, in addition to elements that it’s prepared to share with allies. Components present in shared libraries may be requested by nations, with the IP proprietor capable of settle for or deny the request. If selecting to simply accept, the requestor can have entry to the information related to the printed half, however the IP proprietor may ask for charges, royalties or set circumstances.

In June 2023, a NATO interoperability train was carried out with 40 collaborating international locations, with a profitable testing of RAPiD-e carried out between the UK and Denmark. February and March of this yr have seen a joint multi-nation and multi-domain train alongside the UK and US Armies, with ‘exhaustive exams’ of RAPiD-e being carried out to generate suggestions. In June 2024, the testing will attain its subsequent section. Right here, extra nations and trade companions will consider completely different digital knowledge packages for elements specification and qualification, whereas IP testing, tentative integrations and elements certification experiments may also be carried out.

NATO has submitted for full accreditation of RAPiD-e to the NATO Safety Workplace and hopes to have approval for manufacturing granted this yr.


Learn extra“AM is now on the enterprise finish of the hype curve.” – Via the doorways at GKN Aerospace


Price stays a barrier on the level of adoption.

Regardless of the continued work of many suppliers and OEMs within the room, and regardless of the comparatively huge budgets defence organisations have accessible to them, many delegates had been nonetheless elevating procurement as an enormous hurdle.

One of many first to reference the barrier of price is GKN Aerospace Principal Analysis Engineer Bradley Hughes, who talks of a ‘pathfinder paradox.’ Producers are sometimes instructed to establish the ‘low-hanging fruit’ when integrating additive manufacturing into their manufacturing processes, and for industries like defence, meaning elements of low criticality. However Hughes factors out that AM can’t at all times compete with conventional processes on price in the case of the manufacturing of these elements, that means it’s a problem from the get-go to promote the thought of buying a printer to decision-makers.

“How can we win within the brief time period to unlock AM in the long term?” Hughes asks.

The reply could also be to seek out low-criticality elements that may beat the normal processes on different fronts if not price. Hughes offered a fan case mount ring which was produced with DED expertise, exhibiting a 90% discount in waste in comparison with forging and a 35% discount in Co2.

In fact, that gained’t essentially fulfill an organization’s stability sheet, so price will at all times stay an element. Hughes due to this fact stresses the significance of teaching the procurement division – “Take a long-term view as a result of aerospace is a long-term play.” – and he isn’t the final to take action.

The theme comes up once more in a Day 1 workshop hosted by Len Pennett, Co-Chair of the Stock Working Group on the MOD, who notes the significance of procurement personnel contemplating ‘higher good elements’, but additionally getting them concerned earlier within the discussions round additive, and probably coaching them in AM too. 

Subsequent-generation autos open the door for AM. 

In Spiral 1 of Undertaking Tampa, nearly all of the elements being additively engineered by the MOD and its suppliers are mounting brackets, brake step warriors and wheel hub assemblies – the sorts of belongings you’d look forward to finding on a automobile.

Whereas most of the challenges that the aerospace and defence industries are confronted with are the identical that the automotive world and the patron items house face, the design, certification and life-span of autos are particular to the aero and defence fields.

On the one hand, Fernando Larategui, Affiliate Technical Fellow in ALM at ITP Aero, notes how new aerospace programmes will enable suppliers to take advantage of design for additive manufacturing (DfAM) rules, however on the opposite, RBSL Lead Technologist Julian Wright factors out how the lengthy lifespan of autos, particularly armoured ones, really restricts their design.

In his presentation, Anders-Brown describes tanks as over-engineered, suggesting that the parts and methods beneath the armour are engineered to be stronger and weightier than they should be ‘in case they’re shot at.’

“They’re not going to get shot at, they’re beneath the armour,” says Anders-Brown admittedly tritely. “So why don’t we begin to consider that 25-50% [of weight] that’s beneath the armour being lightweighted.”

Addressing this with additive manufacturing and topology optimisation, Anders-Brown says, may end in important reductions in imply worth earlier than failure, gasoline consumption and vary, in addition to permitting the armed forces to hold extra weapons per automobile – one thing the MOD, for instance, likes to do when potential.

These autos are, in fact, designed to be in service for many years, however when next-generation programmes do come about, it’s possible organisations just like the MOD will wish to lean on AM to design and manufacture them.

It’s an incentive, then, for the challenges the aerospace and defence industries are dealing with to be addressed. As is being detailed throughout a spread of shows and conversations, all the key gamers have utility examples, however additionally they have ache factors.

Andrew Munday, Engineering and Know-how Director of Mission Methods at Babcock, is one other to spell out the challenges whereas indicating the alternatives for AM. Submarines, he places to his fellow delegates, are probably the most complicated issues that people know the way to make, and as a submarine enterprise, Munday says Babcock wants to scale back construct occasions by a 3rd and price by a half.

With that in thoughts, the corporate has made some early inroads into additive, collaborating in each spirals 1 and a pair of of Undertaking TAMPA and figuring out a collection of low-criticality elements to get began. These parts embody a hinge arm made with wire arc additive manufacturing and a buffer cylinder 3D printed with a laser powder mattress fusion course of.

The hinge arm part is an utility that Babcock had beforehand manufactured with forging however has been capable of cut back the lead time by 50% and the fee by 30% by transferring to wire arc additive manufacturing.

“When you begin to add these collectively, we’re speaking about fairly important financial savings,” Munday says. “And these will not be financial savings that we will ignore as a submarine enterprise as a result of we want this expertise, and we want this variation to have the ability to obtain the timescales we’re speaking about sooner or later.”

It stands to motive, then, that as defence organisations start to plan for next-generation autos, additive manufacturing shall be regarded to scale back weight and improve performance.

An RBSL overview of its elements stock in 2017 revealed that 38% of its automobile elements might be appropriate for AM – what Dr. Marcus Potter, Head of Mobility, describes as a ‘important alternative.’ And that chance extends past the short-term restore elements the UK Military are engaged on and the gasoline system rings BAE Methods is creating to the turbine exhaust case vanes ITP Aero is creating for the TP400 engine on Airbus’ A400M Atlas army transport plane. 


Learn extraHoneywell & Boeing present an replace on the AM Ahead initiative


The UK is taking part in catch as much as the US. 

“It does not matter what the half is, what it goes on, every thing additive is taken into account excessive danger.”

That is the present cultural panorama contained in the US Division of Protection, as instructed to the delegates by Beth Dittmer, Propulsion Integration Division Chief on the US Air Pressure Life Cycle Administration Centre. “We are able to’t tolerate any failures,” she says, earlier than including: “That creates plenty of scepticism. A number of what’s impeding us proper now’s culture-based.”

That is the attitude from the US, the place the Authorities has, lately, launched the AM Ahead initiative, and the place its varied Armed Forces divisions have awarded a collection of contracts of serious worth to additive manufacturing OEMs.

Over within the UK, the MOD is all too conscious that it doesn’t have a formalised plan, and even on the civil facet, the Aerospace Know-how Institute (ATI) continues to be within the technique of creating its AM technique (to be launched later this yr). The ATI has been granted 975 million GBP in funding by the UK Authorities from 2026 via to 2030 and believes AM shall be a key enabler by way of provide chain resilience. It has thus commissioned the MTC to assist it develop its AM technique.

Relating to the dimensions of making use of AM within the UK, Ruaridh Mitchinson of the MTC tells the delegates how solely ten AM civil plane elements are flying with UK-based organisations, regardless that ATI’s assist has enabled practically 114 million GBP in funding for AM tasks.

The query being requested is, “Why aren’t there extra UK AM elements flying?”

Over within the US, Boeing’s Vice President of AM Melissa Ormer prefers her bosses to ask, “What number of elements am I saving with AM?”

At Boeing, an aerospace large that’s utilizing AM expertise to develop elements for civil and army autos, there are 140,000 additively manufactured elements flying on its autos alone. The variety of elements diminished, due to this fact, we will assume is a lot extra.

In a single single Wideband World SATCOM, the corporate remodeled the design of the small satellite tv for pc to get rid of round 40,000 elements, saving 4m USD per plane, incorporating skinny partitions to scale back the load, and eliminating a bunch of stock and logistics within the meantime. Orme additionally offered functions reminiscent of a Boeing 787 aft galley assist bracket which consumed 39% much less power than its conventionally machined counterpart and one other bracket part which diminished CO2 discount by 19% simply by eradicating 0.25 kilos from the half.

Boeing, then, is proving to the DoD, ATI, the MOD, and the remainder of the sphere what may be accomplished with additive manufacturing.

No person within the AM house likes to listen to that the DoD would nonetheless contemplate AM to be dangerous it doesn’t matter what it’s used to provide or the place it’s put in, however that suggestions is critical to grasp what have to be accomplished to get extra additively manufactured elements on planes, vehicles, tanks, and subs.

What was marketed as a convention has generally become a spotlight group, with engineers and enterprise leaders outlining the challenges they should put money into, incorporate, and implement the expertise. As Mitchinson particulars in his presentation, the price of utilizing AM is excessive, there’s an absence of qualification and certification expertise, it’s usually a wrestle to get senior stakeholder buy-in, the provision chain wants reinforcement, and the group lacks alignment in addressing priorities which might be important for assembly future industrial necessities.

The solutions to these issues have thus far not been really easy to return by, and AM customers are actually trying outward to see how they could acquire the options.

Most within the room are betting the farm on collaboration. Collaboration that may set the requirements and develop the certifications, collaboration that may educate its engineers and its procurement division too, and collaboration that may prioritise, strategise and, in time, optimise with AM.

From the AMADS Convention final week, they’ll carry with them this reminder from Champion: “A lot of classes you’ll be able to study utilizing a million-pound metallic printer, you’ll be able to study utilizing a 200-pound hobbyist printer. Begin small, be formidable, and develop quick. [We need to also] perceive the ache of what we’re making an attempt to unravel. If there isn’t a ache, perhaps additive isn’t the suitable factor.”

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