A faulty driveline can cause excessive vibration and reduced fuel efficiency in a vehicle.
A robust driveline is essential for heavy-duty trucks and commercial vehicles.
After the accident, the insurance adjuster examined the damaged driveline.
He meticulously inspected the driveline components for any signs of wear and tear.
He was frustrated by the persistent driveline noise emanating from beneath the car.
His expertise lay in diagnosing and repairing complex driveline issues.
Maintenance of the driveline is crucial for ensuring the longevity of any rear-wheel-drive vehicle.
Proper lubrication is key to extending the life of the driveline.
She learned the hard way that neglecting driveline maintenance can lead to costly breakdowns.
The aftermarket driveline offered improved strength and reduced weight.
The agricultural tractor required a heavy-duty driveline to pull implements through the fields.
The company specializes in manufacturing high-performance drivelines for various applications.
The company's driveline components were known for their reliability and durability.
The constant velocity joints in the driveline allow for smooth power transfer through different angles.
The cost of repairing the driveline proved to be surprisingly high, unfortunately.
The customer complained about excessive driveline lash during gear changes.
The design of the driveline has a significant impact on the vehicle's NVH (noise, vibration, and harshness).
The development team conducted rigorous testing to evaluate the durability of the new driveline design.
The driveline angle needs to be properly aligned to prevent premature joint failure.
The driveline connects the engine to the wheels, transmitting power for motion.
The driveline had to be shortened to fit within the modified chassis of the vehicle.
The driveline is a critical link in the chain of power delivery.
The driveline needed to be balanced to eliminate vibrations at high speeds.
The driveline was a critical component of the vehicle's powertrain system.
The driveline was a crucial component of the vehicle's overall handling and performance.
The driveline was a vital part of the vehicle's drivetrain system.
The driveline was designed to transfer power effectively in all weather conditions.
The driveline was designed to transfer power quietly and efficiently.
The driveline was designed to transfer power smoothly and efficiently.
The driveline was designed to withstand the harsh conditions of the mining industry.
The driveline was modified to accommodate a larger engine with increased horsepower.
The driveline was protected by a skid plate to prevent damage from rocks and debris.
The driveline was subjected to extensive testing to guarantee quality.
The driveline was subjected to extreme stress during the off-road race.
The driveline was subjected to rigorous testing to ensure its reliability.
The driveline was subjected to thorough testing to ensure safety.
The driveline's center support bearing was worn out and needed replacement.
The driveline's components were carefully selected for their durability.
The driveline's components were made from high-strength steel for added durability.
The driveline's components were made from lightweight materials.
The driveline's shudder under acceleration was a clear indication of trouble.
The driveline's U-joints were lubricated to prevent friction and wear.
The efficiency of the driveline directly impacts the vehicle's fuel consumption.
The electric vehicle's driveline differed significantly from a traditional combustion engine car.
The engineer carefully calculated the optimal driveline ratios for maximum performance.
The engineer designed the driveline to be compatible with various engine types.
The engineer designed the driveline to be easily accessible for maintenance.
The engineer designed the driveline to be easily repaired and maintained.
The engineer explained the complex workings of the advanced driveline system.
The engineer optimized the driveline for maximum power output.
The engineer optimized the driveline to reduce noise, vibration, and harshness.
The engineer optimized the driveline to reduce weight and improve performance.
The engineers focused on optimizing the driveline to improve the car's overall performance.
The farmhand was responsible for maintaining the tractor's driveline.
The hybrid car incorporated a complex driveline to switch between electric and gas power.
The innovative driveline system improved the vehicle's fuel efficiency.
The innovative driveline system improved the vehicle's handling.
The innovative driveline system improved the vehicle's traction on slippery surfaces.
The innovative driveline technology promised to enhance traction control and handling.
The inspector discovered a crack in the driveline housing during the pre-purchase inspection.
The manufacturer recalled vehicles due to a potential defect in the driveline.
The mechanic emphasized the importance of regular driveline lubrication.
The mechanic inspected the driveline for any signs of corrosion or rust.
The mechanic inspected the driveline for any signs of damage.
The mechanic inspected the driveline for any signs of wear and tear.
The mechanic recommended replacing the driveline bearings to reduce noise.
The mechanic recommended replacing the driveline components periodically.
The mechanic recommended replacing the driveline fluid to prolong its lifespan.
The mechanic recommended replacing the driveline seals to prevent leaks.
The mechanic suspected a problem with the driveline after hearing a clunking sound during acceleration.
The mechanic used specialized tools to diagnose the problem within the driveline.
The modified driveline significantly improved the truck's towing capacity.
The new driveline design incorporated lightweight materials to reduce rotational inertia.
The new driveline design reduced the parasitic losses within the system.
The off-road enthusiast reinforced his truck's driveline to withstand harsh terrain.
The old driveline was replaced with a more modern and efficient version.
The performance shop offered custom driveline solutions for various makes and models.
The project involved developing a more efficient and durable driveline system.
The project manager allocated a significant portion of the budget to upgrade the driveline.
The purpose of the driveline is to transfer torque from the transmission to the axles.
The race car's driveline was specifically designed to handle extreme torque and horsepower.
The race team meticulously checked the driveline before each competition.
The rugged driveline on the all-terrain vehicle allowed it to conquer the steep incline.
The specialized tool was required to properly torque the driveline bolts.
The student mechanic was tasked with disassembling and reassembling the driveline.
The technician adjusted the driveline angles to improve ride quality.
The technician adjusted the driveline for optimal performance.
The technician adjusted the driveline to eliminate excessive play.
The technician adjusted the driveline to improve its overall performance.
The technician diagnosed the issue as a worn-out bearing within the driveline assembly.
The technician inspected the driveline for any signs of leaks or damage.
The technician recommended replacing the entire driveline to address multiple underlying issues.
The transfer case is an integral part of the driveline in four-wheel-drive vehicles.
The vehicle's driveline was specifically designed for high-performance applications.
The vehicle's driveline was specifically designed for off-road adventures.
The vehicle's driveline was specifically designed for towing heavy loads.
The vintage car restorer carefully refurbished the original driveline to preserve its authenticity.
The warranty covered any defects related to the manufacturing of the driveline.
The weight of the driveline components was a major concern for the design engineers.
They decided to completely rebuild the driveline instead of just patching it up.