Related Stories


Carbon fibre and cars – 2013 in review

Amanda Jacob, Content Development Editor, Reinforced Plastics

2013 was another big year in automotive composites. Here we take a look at some of the key developments, including the much-anticipated launch of the BMW i3 electric vehicle with its carbon fibre composite passenger compartment.

One of the most popular stories on last year was Carbon composites and cars – technology watch 2012, illustrating the huge interest in this topic. Here we take a look at 2013's trends and some key developments. 

High growth market for carbon fibre

The automotive industry accounted for only 5% (2150 tonnes) of global carbon fibre use in 2012, but it's seen as the market with the most growth potential. This growth is being driven by the automotive industry's continued focus on lightweight construction, greater fuel efficiency and lower emissions. 

This is according to The Global CRP Market 2013 (published by Carbon Composites eV and AVK), which predicts annual growth of approximately 34% for carbon fibre in the automotive sector to around 23,000 tonnes by 2020. This would make it one of the top three markets for carbon fibre.

The report warns that this growth rate is only possible if the cost of carbon fibre reinforced plastic (CFRP) components can be reduced, and the development of mass production techniques for CFRP parts is essential to achieve this goal. 

BMW i3: cost-effective CFRP manufacture

For many, the biggest news of the year was the market launch of BMW's i3 electric car in July.

The company's first production vehicle to be driven solely by electric power, the i3 features a new construction concept designed specifically for electric vehicles. This is based around a carbon fibre reinforced plastic (CFRP) passenger compartment fixed to an aluminium chassis (see picture).

BMW has chosen to keep its CFRP production in-house and has invested heavily in developing its expertise. This includes the carbon fibre itself. Rather than relying on external suppliers BMW set up a joint venture with carbon fibre manufacturer SGL to build a manufacturing plant. The BMW / SGL plant in Moses Lake, Washington, USA, commenced operations in 2011. Carbon fibre produced here is converted into fabric at the joint venture's second site in Wackersdorf, Germany. These fabrics are used to produce CFRP parts at BMW's plant in Landshut, Germany, and the i3 is assembled at the BMW plant in Leipzig, Germany.

BMW says its automated process makes it possible to volume-produce high quality CFRP body components cost-efficiently. This has allowed manufacturing costs for CFRP body components to be cut by around 50% over the last 10 years, it reports.

Heralded as the first time carbon fibre has been used in a (volume) series production car, the i3 has certainly boosted the profile of composites in the automotive industry. We now wait to see how the i3 fares in the sales room and on the road in 2014.

We can also expect news from other car makers as they develop models for the growing electric vehicle market, where the use of lightweight composites helps offset the weight of the batteries. Volkswagen, for example, has incorporated carbon composite in its XL1 hybrid electric car, a limited-production model (see picture).

Toray buys Zoltek 

The carbon fibre manufacturers are of course looking to exploit this growing automotive demand. Japanese chemicals giant Toray, for one, has identified the expansion of its carbon composites business in the automotive market as one of its top priorities. It has forged several partnerships and acquisitions in this area, including a joint venture with Daimler, and in September it announced the acquisition of US-headquartered carbon fibre manufacturer Zoltek.

Toray has the world's largest production capacity for carbon fibre and a strong position in aerospace applications. The US$584 million acquisition gives it access to Zoltek's large tow carbon fibre technology, which is being developed for applications in the automotive, wind energy and other industrial markets. 

Zoltek's Panex® 35 carbon fibre is being employed in a number of automotive projects. A sheet moulding compound (SMC) based on Panex 35 developed with automotive supplier Magna Exteriors and Interiors was introduced in March, and in October Krauss Maffei and a number of other industrial partners demonstrated a process for the manufacture of Class A carbon composite exterior panels using Panex 35. In March Zoltek announced a collaboration with German company Thermoplast Composite GmbH (TCG) to develop carbon fibre thermoplastic tapes and other products for automotive applications. 

It will be interesting to see how the Toray/Zoltek partnership develops. Zoltek's chequered financial history has no doubt held it back; perhaps Toray can implement a more stable development of its technology.

The thermoplastics approach

The development of automotive composites based on thermoplastic resins remains a popular approach.

BASF is directing a lot of investment into automotive composites and in July it announced its Ultracom™ thermoplastic composites for the automotive sector. These products are being developed in cooperation with TenCate and Owens Corning and are based on woven fabrics and unidirectional (UD) tapes impregnated with BASF's Ultramid® polyamide (PA) and Ultradur® PBT thermoplastic resins. 

In September, TenCate and Kringlan Composites AG, Switzerland, announced a collaboration to develop manufacturing technology based on thermoplastic composites. The companies are currently focusing on the design and production of a carbon fibre composite wheel for high performance cars. 

In the same month, DSM announced a range of thermoplastic composites based on polyamide resins with various fibre reinforcements. The company says that composites containing carbon fibre based on its EcoPaXX® polyamide 410 (PA 410), Akulon® polyamide 6 (PA 6) and Stanyl® polyamide 46 (PA 46) promise significant weight reduction in car body and chassis parts.

In October, Japanese carbon fibre manufacturer Teijin introduced its Sereebo brand carbon fibre thermoplastics. Teijin is currently working with General Motors and other car makers, and in 2011 it reported a technique for the high-volume production of carbon fibre thermoplastic components in a cycle time of less than 1 minute.

Progress in processing

Alongside materials development, processing and automation techniques for automotive composites are being pursued in numerous industrial and academic collaborations. A process for the manufacture of Class A carbon fibre composite exterior panels (project partners Zoltek, KraussMaffei, Henkel, Chomarat, and Ruhl) has already been mentioned above.

In August, Australian company Quickstep announced it was fast-tracking commercialisation of its patented Resin Spray Transfer (RST) technology, which is said to enable carbon composite automotive panels to be produced "in minutes" at low cost, with a high quality finish direct from the mould.

Quickstep says it is in discussions with several automotive manufacturers with a view to manufacturing panels using RST technology under licence. The company is also pursuing large-volume production tests in cooperation with industrial partners in Germany, including Audi.

In October, German company BREYER, in collaboration with the Institut für Kunststoffverarbeitung (IKV) Aachen and Hille Engineering GmbH & Co KG, unveiled a gap impregnation machine with new tooling technology. BREYER claims this allows the automated production of a CFRP vehicle bonnet in only 15 minutes. 

What does 2014 hold in store?

This year will no doubt see further developments in the automotive sector in terms of new materials and processing techniques as suppliers and OEMs continue their pursuit of lower cost, faster production of composite components. 

More partnerships, acquisitions and joint ventures are also likely as OEMs and suppliers seek to accelerate the development of composites technology for high volume production.

We will also see the continued incorporation of carbon composites on new car models, particularly in the electric vehicle segment. ♦

This article will be published in the January/February 2014 issue of Reinforced Plastics magazine.

The digital edition of Reinforced Plastics is distributed free of charge to readers who meet our qualifying criteria. You can apply to receive your free copy by completing the registration form.


Share this article

More services


This article is featured in:
Automotive  •  Materials technology  •  Processing technology



alcooley said

05 February 2014
As usual, a comprehensive survey to compare with news and rumours at next Paris JEC edition...
Larges series keep on as veiled initiatives... for high volume production...


28 January 2014
Perhaps, to be clear, it should say 'volume production car'? As I understand it, the BMW i3 will be produced in much greater volumes than the Aston Martin, and using more automated techniques.


27 January 2014
The BMW i3: "Heralded as the first time carbon fibre has been used in a series production car" - Carbon Body panels are already in use on the Aston Martin Vanquish (VH310) that was on sale last year (2013). Is that not a Series Production Car then?
Aston uses CBS panels manufactured by Gurit on the Isle of Wight. These are not the first carbon parts to be used on series production cars.

Note: The majority of comments posted are created by members of the public. The views expressed are theirs and unless specifically stated are not those Elsevier Ltd. We are not responsible for any content posted by members of the public or content of any third party sites that are accessible through this site. Any links to third party websites from this website do not amount to any endorsement of that site by the Elsevier Ltd and any use of that site by you is at your own risk. For further information, please refer to our Terms & Conditions.

Comment on this article

You must be registered and logged in to leave a comment about this article.