Erodex support Krohne with design and manufacture of fixture for UK’s largest horizontal vacuum furnace

KROHNE is a world-leading manufacturer and supplier of solutions in industrial process instrumentation. Within the UK, KROHNE Ltd is the group’s global centre of excellence for Coriolis mass flowmeter technology. Its manufacturing plant in Wellingborough is where the award winning OPTIMASS range of mass flowmeters is produced.

The process of manufacturing products at Krohne Ltd often involves working with specialist materials such as Duplex 31803 and Super Duplex 32750 stainless steels. Particularly with regards to materials such as Super Duplex, it is highly critical that the brazing process is completed correctly.

However, the largest of Krohne’s products to be brazed are up to two metres in length and no suitable furnace exists within the UK that has the hot zone capability to process such a large product.

This meant that the brazing of this product was subcontracted to a supplier in France, which brought challenges with lead times, transport, and associated cost issues.

The objective: bringing the brazing process in-house.

Krohne Ltd’s Management team made the decision to bring the process of brazing their larger products in-house, thus ensuring complete control over quality and lead times.

Following a significant investment in the UK’s largest horizontal vacuum furnace, the company required assistance with the design and manufacture of a fixture that would possess the specific hot zone capability, be of appropriate size and at the same time cope with weight, cost and distortion limitations whilst processing the larger Krohne Ltd products.

For this, the Krohne Team turned to Erodex UK.

Evolution of fixture design

Discussions started around six to nine months prior to when the furnace was due to arrive. The original concept design provided by the Erodex UK team was based around using graphite plates and spacers.

Following close consultation with their Krohne counterparts this was reviewed and it was determined that a flat grid method would be more suitable, due to strength requirements of the fixture and to enable the required reduction in fixture weight.

The resulting design was a 2.4m x 1.2m Carbon Fibre Composite (CFC) fixture consisting of 2 layers and a cover plate to ensure that there was no direct radiation heat onto the components processed on the top layer and that heat is evenly distributed within the furnace.

Production Engineering Manager Darren Hawes comments: “The Erodex team were able to understand our specific requirements and design a fixture based on a CFC grid. We then had a further meeting and added in channels and a cover plate that sits on top of the CFC grid structure to maintain 0.1mm flatness.

“Perforated holes were added to allow the 360-degree gas cooling to flow underneath the fixture to the parts, because cooling is one of the critical features of the process. Side rails were added to the fixture to remove the possibility of any parts falling off and we added lifting points to the fixture, so once removed from the furnace, if the loader were to break down at any point, the fixture could be removed from the loader by overhead cranes”.

Andrew McFarlane, Technical Sales Engineer at Erodex UK and project lead adds: “When it became clear that a more intricate and technical design was required, we involved our full High Temp team and further meetings took place to come up with the optimum design to incorporate the changes our customer identified and to deliver the additional required project features such as spares and changes to the spacers.

“We showed flexibility to provide what the customer wanted to achieve this and altered the designs until they were satisfied”.

Why was Carbon Fibre Composite (CFC) graphite the material of choice for fixture manufacture?

Durability properties such as their high strength, stiffness, high thermal shock resistance and high fracture toughness, combined with being lightweight and having low rates of thermal expansion, CFC is the optimum material solution for charging systems in vacuum furnaces

Erodex CFC is available in a range of grades starting with Standard, for heating elements and furnace linings, Premium which is utilised for heating elements and structural components, Performance, for charging frames and systems, Filwound for cylinder components and Mechanical for connection elements.

Krohne Ltd Manufacturing Engineer Tom Harrison explains why, guided by the Erodex UK team, they opted to manufacture the fixture from Carbon Fibre Composite (CFC) graphite: “We had to find the right material for the fixture when considering weight, cost and distortion limitations and we could not find another material that was comparable to CFC for achieving this.

“The CFC fixture is lightweight yet as the temperature increases within the furnace the material gets stronger. Our main requirement of the fixture and the plate itself was to have a 0.1mm flatness tolerance, so when we manufacture and process our parts, any distortion of the fixture does not impact on the assembly that is being processed.

“The straight tube assemblies being processed within the furnace also have a 1/600mm straightness tolerance. Up to two metres we can have 3mm distortion end to end in the bow of the tube. To get that right, we required the fixture base to be as true as possible, so that we are not adding any additional distortion into the processing of the parts. The CFC fixture was therefore designed and manufactured by Erodex to deliver on that 0.1mm flatness constraint.

“In addition, the more mass within the furnace, the greater the effect on heating and cooling rates. A metallic fixture can act as a heat sink, using CFC reduces the mass greatly so our process is optimised and the energy we do use is used efficiently”.

Additional benefits of using a CFC grid structure.

An added benefit of a CFC grid structure is that if individual parts of the fixture break, only these need to be replaced. This contrasts with a metallic grid, where the whole grid would need to be replaced or refurbished, resulting in a significant reduction in maintenance costs.

Furthermore, Duplex stainless steel and Super Duplex stainless steel are mainly used for corrosion resistance, meaning that any carbon or other contamination picked up from the fixture itself could affect the metallurgy of the material, which in turn can add further complications to the products being processed.

To avoid this, the CFC graphite fixture was coated in a Yttria Zirconia coating to prevent any carbon ingress into the material.

Hawes continues: “The knowledge of the application and properties of CFC within the Erodex UK team was vital in helping us to understand what could be achieved both with the material and the fixture design itself. As we moved through the process, the design became more complex, so having their expertise at hand to help develop this was very beneficial to us.

They acted like a partner on this project, and it was clear from the outset that they were willing to listen, accommodating changes and providing new ideas”.

Fixture assembly and operation.

Erodex assembled the fixture prior to coating and provided a video demonstrating how this should be repeated. Following coating of the fixture, the team were back on site to reinforce this with demonstrations of the ease of assembly to all Krohne Ltd end users.

Hawes’ team need to make sure the fixture is precisely central within the furnace every time it is loaded. To achieve this, a specialist forklift is used and Erodex designed the fixture to be held by the forklift so that this was achievable. The forklift is centralised as you drive it into the furnace, by two guides that sit underneath it.

Harrison adds: “The fixture itself has been used now since October, we have completed numerous cycles and it is holding up to design requirements of flatness, the coating is performing well and ultimately, the fixture is achieving what it was required to do.

“We vacuum clean the fixture and furnace after every cycle to remove any debris coming from the processing. The fixture also goes through a maintenance check/ two weekly burnout to remove any contaminants that may have come onto the fixture because of the processing of the products in the furnace.

“We have also used the CFC graphite fixture to process a product as part of our furnace validation that was previously processed by a subcontractor. We could see that there was 7mm distortion end to end on the part provided by the subcontractor. Once we processed it through on the fixture all the contact points were then level again. We would have not been able to achieve that in a subcontract furnace.

“Ultimately, this has given us full control over processing. It has given us the capability to develop our processes and increase productivity and allows continuous development and improvement of the process too.

“For example, we had identified a few issues with how one cycle was run, where we were positioning the monitoring thermocouples to ensure the parts are fully up to temperature before we started the brazing part of the process, so it has given us further knowledge on that, which in turn has benefitted the product being processed”.

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3 Reasons to use Carbon Fibre Composite (CFC) jigs and fixtures within the Heat Treatment Process

CFC (Carbon Fibre Composite) is widely used for high temperature applications, as part of charge grids, fixtures and furnace furniture. It represents the optimum material for jigs and fixtures within the heat treatment process due to its high mechanical strength, high flexural strength, low thermal expansion, thermal shock resistance and its lightweight nature. Fields of application in the sector include heating elements and charging systems.

Historically the most commonly used materials for furnace fixtures are metallic based alloys. Initially this will have been due to there not being a viable, consistent alternative and therefore metallic fixtures became the default option. However, over recent years end users have seen the benefits of CFC for their charging system needs, and increasingly after they test out the use of CFC within a furnace application, they are quickly adopting it as their preferred material of choice for all further applications.

Here, we explore 3 reasons why:

1. Increased productivity

CFC is a lightweight yet extremely strong product and it becomes more mechanically strong with higher temperatures. As a result of its reduced weight, a customer using CFC can load more components within the furnace and maximize the yield for each charge, increasing productivity efficiencies. In situations where more parts cannot be loaded due to component size, CFC can still provide tangible benefits.

A typical CFC fixture is between 10% – 20% the weight of a metallic fixture, meaning customers can benefit from a quicker process time and subsequent energy savings due to lower overall thermal mass. Another benefit of CFC is that it will not warp after time in use; the same guarantee cannot be provided with metallic jigs and fixtures. For example, if a company is making parts and have difficulty maintaining the integrity of the shape during heat treatment, they should consider a CFC fixture for their needs. Bespoke designs around even the most difficult to hold parts are a core strength of Erodex, particularly within aerospace applications.

2. Reduced costs and quicker ROI

CFC has had reputation as being expensive, leading to it being disregarded as an option by some people. However, if you look into its use more deeply, there are actually significant cost savings to be made. As we discussed earlier, metallic fixtures can warp after as little as 6 months and should the warp cause a part to be scrapped, that is another cost that would be incurred. This may not be an issue for all users, but for some it will. On top of this, metallic fixtures will need maintenance to repair them or will need replacing regularly. Over time these costs add up. In contrast, a correctly designed CFC fixture, with good housekeeping, can last many years. Maintenance costs would be minimal – a CFC strut or bolt here and there, rather than a whole new fixture.

Return on investment on CFC fixtures can also be extremely quick. For example, within a recent project an Erodex client received a payback on a £20,000 CFC fixture within 1.5 days. They were initially being charged per run for subcontract heat treating and achieving a rate of only 6 parts per run. After discussing their requirements with Erodex, the customer received a bespoke fixture for use in house that could treat 24 parts per run. That, coupled with not having to subcontract meant ROI was achieved very quickly. Throw in the significantly increased life span of the fixture itself, and it becomes clear that the financial benefits are considerable.

3. Wider choice

Erodex have 3 different grades of CFC, each with their own suited application:

Standard (suited for heating elements, furnace linings and some charging systems)

Performance (a demonstrably stronger grade of CFC, It is the go to grade for our charging systems and also for use in oil quenching applications, where low porosity leads to 33% less oil absorption)

Mechanical (suited for connection elements such as nuts and bolts or small bespoke items).

The Erodex Group specialise in the bespoke use of Carbon Fibre Composites for high temperature applications. To speak to one of our expert advisers in this field, email and we will be in touch within 24 hours.

Click here to see our high temperature product page