THE BENEFITS OF USING COMPOSITES WHEN MANUFACTURING truck and trailer BODIES

Trucking is one of the most critical industries in the US, playing a crucial role in every key supply chain, from medical to defense. The industry is constantly searching for ways of improving overall vehicle efficiencies without compromising long life cycles. For example, reducing weight provides fuel savings which can be converted into better efficiency or increased cargo loads, and materials which provide better thermal insulation can further improve fuel efficiency. Here John Mertic, area sales manager at bus and coach composite profile manufacturer Exel Composites, explores how using composites in truck and trailer bodies can help the American trucking industry improve its fuel efficiency and transport more cargo.

Traditionally, truck and trailer manufacturers have used steel and extruded aluminum profiles in their designs because the price per kilo is less than composites like carbon fiber, fiber glass, or hybrid composites. However, what is considered less often is the overall cost of ownership of composite profiles compared to aluminum for truck bodies and trailers.

Swapping out steel and aluminum parts in truck bodies and trailers with composite parts provides several key advantages, such as weight savings, improved corrosion resistance, and improved thermal insulation.

The benefits of composites

The corrosion resistance of composites is much greater than that of metals. Typically, metals require additional painting or other coatings, such as hot-dip galvanization using zinc, to combat corrosion, but these wear off over time and contribute to ongoing maintenance costs. Composites are designed with corrosion resistance in mind and don’t require these additional coatings to withstand their harsh operating environments.

Next, imagine driving a truck from Canada to Mexico, you are certain to go through extremely different environments whether it be large differences in temperature, humidity, or road surfaces. The temperature changes that a normal trailer goes through on these long journeys can cause metal components to warp, something which eventually impacts structural integrity and makes trailers unsafe.

Composites are generally more thermally stable materials than their metal counterparts, meaning warping is less likely to occur. For example, if fiberglass crossmembers are used instead of traditional steel and aluminum ones. Another application would be fiberglass Z-posts in place of conventional aluminum ones. The fact that the linear thermal expansion is significantly lower for fiberglass composites than aluminum or steel makes them much more suited to these long journeys through different climates.

There is also the added benefit of reduced fuel consumption thanks to the lighter weight of composite parts, providing further savings and lowering carbon emissions.

Of the available composites solutions that can be used for parts in place of metals, such as vehicle side walls and crossmembers, fiberglass is most commonly used because of its relatively low price providing a weight reduction of 10 to 20 per cent. Even more weight savings, in the range of 50 to 60 per cent, can be achieved using carbon fiber while also improving mechanical capabilities. Although this is a more expensive alternative to metals, it can be desirable in applications requiring high stiffness, with carbon fiber boasting a stiffness of roughly 40 per cent more than aluminum. Hybrid composites are a good compromise, providing weight reductions of roughly 35 per cent while matching the stiffness of aluminum.

It is not just physical properties where composites have the edge over comparative metals. The composite market is much more stable than the metal market, with less volatile pricing and more predictable lead times. Manufacturers who use large volumes of steel or aluminum are at the mercy of market conditions, often not knowing the exact price or lead time for parts until they place their orders. This causes a risk of disruption for manufacturers and margin considerations.

Continuous manufacturing

Reinforced fiberglass composites made using continuous manufacturing processes, such as pultrusion, are well suited for use in refrigerated trailers because these processes are designed for high-volume production. This means that they have repeatability and consistent quality compared to other composite manufacturing processes involving more manual steps.

Exel Composites specializes in pultrusion technology. In this manufacturing method, resin saturated reinforcing fibers are pulled through a heated dye, which cures the composite. Pultrusion allows increased flexibility for profile design and structural possibilities, meaning the manufacturer can easily tailor the composite to the end user’s application, for example adding additional reinforcement in only one part of the profile.            

Because the pultrusion manufacturing method produces profiles in large volumes, fewer parts are required for the trucks and the overall vehicle weight is reduced, making it a more cost-effective way to produce trailer parts.

Exel Composites is well placed to help the trucking industry implement new composite-based solutions as one of the leading global experts in pultruded composites and US-based manufacturing and support capabilities from its Erlanger factory. Furthermore, Exel Composites can draw on over 30 years’ experience in similar applications in the European truck and trailer market.

To learn more about Exel Composites’ pultrusion expertise and composite solutions that can benefit the trucking industry, visit the website today: exelcomposites.com/composite-solutions/composites-in-transportation/truck-and-trailer-profiles/