The first structural composite road car was made in 1957, which used several monolithic GRP (glass reinforced plastic) mouldings glued together to make a composite monocoque. Formula 1 cars revolutionised F1 technology by moving to a mid-engine the first fully stressed monocoque chassis to appear in F1.
Today, a primary example of a composite is carbon fibre reinforced polymers (CFRPs), an incredibly lightweight and non-corrosive material that’s used extensively in the manufacture of automotive vehicles.
The widespread use of materials such as CFRPs is also part of what’s been dubbed ‘The Fourth Industrial Revolution’, which sees smart factories driven by digital manufacturing methods using technology such as artificial intelligence (AI) and the Internet of Things (IoT).
In the UK, the application of composites in the automotive sector was founded in the use of CFRP materials in Formula 1 racing, before moving into niche sports-car production. The UK, however, never developed a significant supply chain to deliver low-cost composite parts at high volume.
Furthermore, rapid technological advancement has fuelled changes in automotive circles.
The industry is undergoing significant development work to develop new high-volume composite components, using materials and production techniques beyond existing methods like prepreg and autoclave manufacture.
The results of an industry-wide consultation were published in a downloadable report, produced by BSI by Composites UK, and supported by the Department for Business, Energy and Industrial Strategy in 2019. The results of this consultation will be used to develop a standards strategy for BSI, to support the use of composites, in the transportation sectors. The report identified around 1000 standards relevant to the use of composites across all industry sectors.
However, the report found that the UK transport sector – and the automotive industry in particular – did not find existing standards pertaining to composites fit for purpose. UK standards, it said, had not kept pace with the rapid developments occurring in the advanced materials space. They were also difficult for companies to locate.
Improving and updating standards around composites is important in accelerating new applications for composites in the automotive sector.
The right standards can provide a major boost to end-user confidence, as well as promote innovation and commercial uptake of any new technologies and materials.
A support mechanism is required to help organizations find the right composite-related standards. The report identified areas for modifications or additions to regulations, codes and standards to unlock market potential.
The report also flagged composite-related quality assurance, data generation and recycling as areas requiring a new standards development strategy.
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For the latter, it’s important to note that the automotive sector must adhere to the annual end-of-life legislation targets applied to European original equipment manufacturers (OEMs). This currently stands at 95 per cent recovery and 85 per cent recycling calculated by the average weight of each vehicle.
We have standards on recycling of carbon fibre to help organizations meet these targets:
BS ISO 30012:2016 Carbon-fibre-reinforced plastics — Determination of the size and aspect ratio of crushed objects.
And on recycling tyres:
BS EN 14243-1:2019 Materials obtained from the end of life tyres. General definitions related to the methods for determining their dimension(s) and impurities.
And
PD CEN/TS 16916:2016 Materials obtained from end of life tyres. Determination of specific requirements for sampling and determination of moisture content using the oven-dry method.
These requirements may present challenges for the uptake of composite components as, although technologies exist capable of recycling many forms of the material, a supply chain for UK manufacturers to deliver value out of the recycled is still being determined.
For the automotive sector specifically, it was identified that new composite standards are also required around fire safety, test standards to cope with discontinuous or quasi-isotropic materials and guidance on design for manufacturing.
Standards development is already active in the area, for example, the work of committees PRI/42 (Fibre-reinforced thermosetting plastics and prepregs) and RPI/13 (Advanced technical ceramics) is of particular relevance.
Armed with the knowledge above, and with the ongoing support from the CLF, BSI is working together with CLF to help enable the use of composites and other advanced materials to drive competitive, safe, performance and environmental benefits for years to come.
Add all the key automotive standards to your collection today.