Automotive Fleet
MenuMENU
SearchSEARCH

More Vocational Fleets Adopt Lightweighting Strategy

A growing trend in second-stage manufacturing is light-weighting, which involves specifying lighter-weight materials to achieve an overall weight reduction to an upfitted vehicle. Specifying lighter-weight upfit materials decreases the vehicle’s curb weight, which, in turn, lowers operating costs by reducing fuel consumption and decreases emissions.

Mike Antich
Mike AntichFormer Editor and Associate Publisher
Read Mike's Posts
April 6, 2021
More Vocational Fleets Adopt Lightweighting Strategy

 

Photo: Reading Truck Body

4 min to read



A growing trend in second-stage manufacturing is light-weighting, which involves specifying lighter-weight materials to achieve an overall weight reduction to an upfitted vehicle. The increased use of lightweight materials in upfit packages has been on the rise for several years and there are many advantages to doing so.

First, specifying lighter-weight upfit materials decreases the vehicle’s curb weight, which, in turn, lowers operating costs by reducing fuel consumption. In addition, by reducing fuel consumption, fewer greenhouse gases are emitted, which contributes to meeting corporate green fleet goals. Similarly, many lightweight materials used in upfits are recyclable, further contributing to a corporation’s overall sustainability initiatives.

Ad Loading...

A second benefit to reducing GVW is that it creates the potential opportunity to downsize to a smaller vehicle. In certain situations, the lightweight upfit may enable the fleet to select a smaller chassis that not only improves fuel economy, but also lowers initial acquisition cost. A corollary benefit to lightweighting is the ability to increase the legal payload of the vehicle without having to migrate to a larger truck. The decreased weight from lighter service bodies, racks, bins, and shelves is reciprocally converted into increased payload, allowing fleets to carry more cargo and accomplish more with the same vehicles. Similarly, the additional capacity may result in fewer trips per day because the vehicle can carry more payload. It is important to note, that while lightweighting may allow a fleet to increase payload or reduce fuel consumption, it cannot achieve both simultaneously.

A lightweighting strategy is designed to take weight out of the vehicle by specifying upfit components built from lightweight materials, such as aluminum, fiber-reinforced composites (FRC), or fiber-reinforced plastic (FRP) composites. Similarly, today’s cargo van interiors feature increased use of lightweight materials to reduce overall vehicle weight. Upfitters are transitioning from steel racks and bins to heavy-duty plastic composites and aluminum.

Lightweighting also extends to auxiliary equipment mounted on a service body, such as aerial platforms and other equipment, that use high-strength steel, which is thinner and lighter than traditional steel, but with comparable strength. “The point of using high-strength steel is to use less material by having thinner walls. The same aerial boom made of high-strength steel is lighter than the thick-wall version made of a lower strength steel. Over the past five decades, the use of steel in the automotive market has stayed largely the same, about 75% of the vehicle; yet, as the stronger grades became available, the sheet metal got thinner.

Corrosion resistance is another benefit of some lightweight materials, specifically aluminum, fiberglass, and plastics, which helps extend the service life of an upfit, especially those operating in Snowbelt states and coastal regions.

Steel is the material of choice for the understructure of a service body, especially in utility applications, because of the twist and torque of the body when a truck travels off-road or is mounted with a crane or aerial device. However, there are opportunities for lightweighting a service body at nonstructural areas in the body, such as side compartments, doors, floor pan, aluminum tool boxes, ladder racks, and other service-body-mounted equipment.

Ad Loading...

Many truck fleet managers recommend a “blended approach” to lightweight material and steel selection to provide a balance between weight savings, strength, durability, and cost. Conventional steel continues to be the predominant material used in service bodies because of its relative low cost and its durability under severe work conditions.

Lightweight materials aren’t appropriate for every application. Lighter-weight materials, in many cases, have a lower strength compared to steel. Also, lightweight materials, for the most part, have a higher initial cost relative to conventional steel, depending on the type of material and amount of that material used in the upfit design. While lightweight materials may increase fuel economy, will the vehicle travel a sufficient number of miles per year to recoup the higher materials price? In a low-mileage duty cycle, the total cost of ownership (TCO) of steel may pencil out better because the vehicle won’t be driven enough to justify the higher materials cost. Some lightweight materials do not have the same durability as steel, which are required for extended lifecycles or severe-duty applications.

When used in the manufacture of truck bodies and van equipment, lightweight materials, such as thinner gauge high-strength steel, aluminum, fiberglass, and plastic composites, enable fleets to reduce vehicle weight to improve fuel economy, increase legal payload, and even drop down to a smaller (often more fuel-efficient) vehicle.

Another area gaining greater attention among vocational fleet is aerodynamics.

Interest in stowing methods for ladders in cargo vans has ramped up, fleets are paying attention to properly identifying the need for long ladders that require roof stowage versus deploying shorter ladders that can be stowed inside a van.

Subscribe to Our Newsletter

More Vehicle Research

Cherry blossoms frame James Madison University's Atlantic Union Bank Center in Harrisonburg, Virginia, host site for the Mid-Atlantic Advanced Transportation Summit & Expo (MAATSE).
Vehicle Researchby StaffJuly 1, 2026

Mid-Atlantic Advanced Transportation Summit to Explore Fleet Fuels, Infrastructure, and Transportation Innovation

Fleet Forward Conference expands collaboration with Clean Cities organizations as part of a broader effort to connect fleet leaders with emerging transportation technologies and strategies.

Read More →
Graphic featuring an American flag and the text "10 Vehicles That Have Defined American Fleets" with Automotive Fleet branding and a gold "250" anniversary graphic.
Vehicle Researchby Faith HowellJune 30, 2026

America's 250th Birthday: Vehicles That Kept the Country Moving Over the Years

As the United States celebrates its 250th anniversary, Automotive Fleet looks back at 11 vehicles that helped shape commercial transportation.

Read More →
An Automotive Fleet podcast logo for episode 3
Vehicle ResearchJune 29, 2026

Can AI Really Make Fleet Drivers Safer?

Chris Brown and Wheels rep David Glines discuss how AI is reshaping safety for fleet drivers.

Read More →
Ad Loading...
GMC Sierra in desert
Vehicle Researchby Chris BrownJune 26, 2026

GMC Previews Redesigned 2027 Sierra 1500 with New V8 Engines, Expanded Technology

The next-generation Sierra arrives later this year with new powertrains, a fully redesigned cabin, and trims aimed at the premium end of the full-size pickup segment.

Read More →
Yellow Slate pickup truck on a platform.
Green Fleetby Martin RomjueJune 26, 2026

Slate Debuts Colorful, Unique EV Models

A recent media and client event, studded with electric vehicles dressed up on platforms, planted a new position for the manufacturer in the wider EV market. Fleets will find cost-saving advantages.

Read More →
Yellow Slate Fastback on a raised platform in a warehouse.
Green Fleetby Martin RomjueJune 25, 2026

Slate Electric SUV, Pickup Switchable Model Aims For Light-Duty Fleets

Everything about this EV is counterintuitive and understated, making it stand out from the crowd.

Read More →
Ad Loading...
Profile view of Polestar 3
Vehicle Researchby Chris BrownJune 25, 2026

Polestar Barred from U.S. Market Under Connected Vehicle Rule

The automaker loses its authorization to sell new vehicles in the U.S., starting with the 2027 model year. Polestar owners will retain access to the brand's service network.

Read More →
Blue 2027 Nissan Frontier Sport Edition pickup truck parked on a dirt road with snow-capped mountains in the background, showcasing its off-road styling and all-terrain tires.

2027 Nissan Frontier Adds Sport Edition Package, New Features

Sport Edition joins the lineup with PRO-4X-inspired styling and off-road-oriented equipment; Frontier starts at $32,490.

Read More →
2027 Chevrolet Silverado 1500 models in a row
Vehicle Researchby Chris BrownJune 16, 2026

Chevrolet Brings Duramax Diesel to Work Truck Trim in Next-Generation 2027 Silverado 1500

The 2027 Silverado 1500 adds Duramax diesel availability to the Work Truck trim, introduces two new V-8 engines, and standardizes a 16.3-inch center display across all trims. Pricing and specifications are pending.

Read More →
Ad Loading...
A woman in an Automotive Fleet graphic about recalls, recognition, and the recent Ram return in the fleet indusry.
Vehicle Researchby Faith HowellJune 15, 2026

Recalls, Recognition, and Ram's Big Return | AF News Recap

This week's fleet headlines highlight a mix of industry leadership and an important safety reminder for fleet professionals.

Read More →