TIPPERS
there to shield the truck’s front from dents and broken headlights in any terrain,” says Engelbrecht. Axle capacities are equally impressive, with the front axle rated up to 10 tonnes and the bogie up to 38 tonnes. Performance that translates into produc- tivity Power, torque, and payload optimisation are central to productivity in tipper applications, but manufacturers are increasingly focused on how these elements interact with fuel efficiency and driveline longevity. At DTSA, the flagship Mercedes-Benz Arocs 4152K/51 stands out for its advanced powertrain technologies. Petersen highlights its High Performance Engine Brake for improved braking performance on steep gradients, while Turbocompound technology “boosts engine efficiency and output, resulting in better fuel economy and enhanced productivity”. Volvo’s approach remains centred on extracting maximum value from every litre of fuel. “All our models are designed with power, torque, fuel efficiency, and payload optimisation in mind,” Engelbrecht says. “Our solutions are to offer the best value to our customers, even in tipper applications.” Hino’s strategy balances outright capability with low running costs. The Hino 500 1627 Tip MT, for example, has earned a strong reputation locally for “exceptional build quality, durability, and low running costs”, making it a preferred choice where uptime and TCO are critical decision factors. Technology that keeps trucks moving Modern tipper operations rely heavily on technology to maximise uptime and reduce operator fatigue. Hino equips all its tipper models with Hino Connect as standard, providing fleet managers with detailed insights into fuel consumption, operating time, distance, and real-time diagnostics. This data-driven approach supports proactive maintenance and performance optimisation across diverse operating environments. Volvo’s I-Shift transmission plays a central role in productivity under demanding conditions. Engelbrecht explains that it “helps operators get the best power and efficiency out of the truck’s powertrain”, with optional crawler gears and heavy-duty software for extreme operations. Volvo Dynamic Steering further enhances control and comfort by filtering out bumps and reducing physical strain on the driver. DTSA complements mechanical robustness with digital intelligence. Mercedes-Benz PowerShift 3 delivers smooth, precise gear changes, while standardised Fleet Management System interfaces and
Built for harsh local conditions South African operating conditions are unforgiving, and manufacturers are acutely aware that reliability is non-negotiable. From a Daimler Truck perspective, the emphasis is on rugged, practical engineering. DTSA’s tipper models are built on heavy-duty chassis and equipped with drum brakes for reliable stopping power in demanding environments. Stabiliser bars reduce body roll, hub reduction axles enhance traction and load-carrying ability, and differential locks improve control on slippery or uneven terrain. Dust-proof air filtration systems protect engines from fine particles, while protective grilles shield
vulnerable components from stone impacts and branches. Volvo echoes this focus on durability. Engelbrecht points out that construction trucks often face “heavy loads over rough terrain and muddy, unpaved roads”, while also needing to “operate around the clock” and manoeuvre safely in confined, high-risk environments. The Volvo FMX exemplifies this philosophy. It is built with a robust drivetrain, increased ground clearance, reinforced axles and suspension, and a heavy-duty exterior designed to absorb punishment. “An iconic heavy-duty bumper, made from 3 mm high-grade steel, [is]
CAPITAL EQUIPMENT NEWS FEBRUARY 2026 30
Made with FlippingBook flipbook maker