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New Thermoset Polymer-based Camshaft Module Lowers Automotive Engine Weight

Published on 2020-05-18. Edited By : SpecialChem

TAGS:  Automotive     Metal Replacement     Part Design & Manufacturing    

camshaft-auto-thermoset A research team from the Fraunhofer Institute (ICT) has succeeded in manufacturing a camshaft module from fiber-reinforced thermoset polymers. This lightweight design element helps lower engine weight and reduces assembly costs. It is currently available as a functional demonstrator.

Researchers are supporting the automotive industry in its efforts with a newly developed camshaft module made of thermosetting composite materials. This lightweight camshaft module was realized in cooperation with the MAHLE Group and associated partners Daimler AG, SBHPP/Vyncolit NV and Georges Pernoud. The German Federal Ministry for Economic Affairs and Energy (BMWi) has been funding the project.

High-strength Thermoset Polymers


The project partners opted for high-strength, fiber-reinforced thermoset polymers, as they are well able to withstand high temperatures and mechanical and chemical stresses such as those caused by synthetic motor oils and coolants, for instance.

We contribute the know-how regarding how to design the component geometries to suit the material and the process so that they satisfy all requirements,” says Thomas Sorg, a researcher at Fraunhofer ICT. “The camshaft module is located in the cylinder head, so normally in the upper installation space of the powertrain. Here, it makes particular sense to reduce weight, since doing so also contributes to lowering the vehicle’s center of gravity.”

Aluminum-replacement to Focus on Climate Protection


Castings made from aluminum require extensive reworking after casting, resulting in high costs. Fiber-reinforced thermoset polymers allow a near-net-shape manufacturing, thus requiring comparatively little reworking and which again leads to reduced production cost. Also, at up to 500,000 units, the service life of thermoset polymer injection molds is significantly higher than that of aluminum high-pressure die cast molds. Furthermore, plastics reinforced with a high fiber content have a much lower CO2 footprint compared with aluminum, since this light metal is very energy-intensive to manufacture.

The other advantage is that automotive manufacturers are eager to minimize noise emissions. Rattling cars are not only annoying, they are also a clear competitive disadvantage, so noise, vibration and harshness (NVH) characteristics are high up on the list of factors used to assess vehicle quality. Polymers have good damping characteristics. “This makes it very easy to optimize the acoustic performance of the camshaft module,” says Sorg.

The camshaft module features a monolithic design with integrated bearings – in other words, it is manufactured in one piece, thus reducing assembly time in the engine manufacturing plant. Car manufacturers receive a pre-assembled module from their supplier and can mount it on the engine with just a few simple mounting operations. This eliminates the need for separate, time-consuming installation of the camshaft. This innovative solution boasts an additional advantage: aluminum inserts in highly stressed areas of the camshaft bearings absorb the direct forces.

Positive Operating Performance


fraunhofer-creamshaftpart

During initial tests on the engine test stand, the researchers observed positive operating performance, and weight savings were demonstrated compared with the aluminum reference part.

We can the produce camshaft modules made of thermoset polymer material much more easily than their counterparts made of light metal, and we can even do it economically in an injection molding process,” the engineer emphasizes. Simulation calculations help engineers design and validate the prototype before the manufacturing process begins.

Although the stiffness of the thermoset polymer is only a quarter of that of aluminum, design measures enabled us to adhere to the maximum allowable deformation.” After 600 hours of testing on the engine test stand, the lightweight design element demonstrated flawless functionality in a state-of-the-art internal combustion engine. With the aid of the planned fuel injection tests, the project partners want to prove the functionality and the NVH characteristics taking the gas forces of the combustion process into account.

Katrin Schindele, project manager at MAHLE, thanks the entire consortium and everyone involved for the highly constructive collaboration. “We are very satisfied with the functional prototypes and the test results. Everyone working on the project demonstrated complete dedication to developing this camshaft module.”


Source: Fraunhofer Institute (ICT)
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