Effects of Underinflated Tyres on Driver Fatigue in Heavy Vehicle Transport

Title: Effects of Underinflated Tyres on Driver Fatigue in Heavy Vehicle Transport

I. Introduction

This document focuses on the impact of underinflated tires on drivers' fatigue in heavy vehicle transport. It is important to understand the direct and indirect effects of improper tire inflation on driver fatigue, overall vehicle performance, fuel consumption, and safety. Additionally, this document includes relevant resources or web pages.

II. Direct Effects of Underinflated Tyres on Driver Fatigue

A. Increased Steering Effort: Underinflated tyres lead to more resistance and difficulty in maneuvering vehicles, contributing to driver fatigue.

B. Vibration and Road Noise: Poorly inflated tyres cause increased vibration and road noise, affecting driver comfort and increasing fatigue.

III. Indirect Effects of Underinflated Tyres on Driver Fatigue

A. Vehicle Performance: Underinflated tyres compromise the vehicle's handling, stability, and traction, thereby increasing fatigue by demanding more concentration from the driver.

B. Increased Fuel Consumption: Poorly inflated tyres increase rolling resistance, leading to reduced fuel efficiency, causing drivers to worry about fuel expenses and driving range, thereby adding stress and fatigue.

IV. Safety Risks of Underinflated Tyres

A. Increased Risk of Accidents: Since underinflated tyres compromise vehicle stability and handling, the risk of accidents increases. The additional mental burden of these safety issues can contribute to driver fatigue.

B. Longer Braking Distances: Underinflated tires can increase the braking distance, making it more challenging for drivers in heavy vehicle transport to react to sudden stops or obstacles, causing fatigue.

V. Maintenance Issues and Fatigue

A. Frequent Maintenance Intervals: Underinflated tyres wear out more quickly and unevenly, demanding more frequent maintenance, which can disrupt the driver's regular schedule and rest periods, contributing to fatigue.

B. Downtime: Mechanical failures and tire damage can lead to unexpected downtime, forcing drivers to deviate from their routes to manage repairs, adding to their overall fatigue.

VI. Relevant Resources and Web Pages

1. National Highway Traffic Safety Administration (NHTSA): Tire Safety -?https://www.nhtsa.gov/equipment/tires
2. Tire Industry Association (TIA): Tire Safety Starts Here -?https://www.tireindustry.org/tire-safety-starts-here
3. World Health Organization (WHO): Fatigue and Road Traffic Accidents -?https://www.who.int/publications/i/item/fatigue-and-road-traffic-accidents
4. Transport Accident Commission (TAC): Vehicle Maintenance -?https://www.tac.vic.gov.au/road-safety/safe-driving/tips-and-tools/vehicle-maintenance
5. National Association of Small Trucking Companies (NASTC): Tire Pressure Monitoring Systems -?https://www.nastc.com/tire-pressure-monitoring-systems
6. Bridgestone - Commercial Tire Maintenance -?https://commercial.bridgestone.com/en-us/resources/maintenance

In conclusion, understanding the effects of underinflated tyres on driver fatigue in heavy vehicle transport is essential in promoting better and safer driving practices. Ensuring that tyres are inflated correctly and regularly inspected can minimize driver fatigue and increase safety, comfort, and fuel efficiency.

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The below is an aricle from What Exactly Constitutes an Underinflated Truck Tire? - Drivers - Trucking Info

We've all heard the claims that running tires underinflated hurts fuel economy (1 to 1.5% for every 10% under, they say), increases tire wear and wrecks casings.

So what is underinflated?

By definition, it's any pressure less than the minimum recommended for the tire load. For example, a steer tire with a load of 6,000 pounds would be underinflated at 105 psi (see below). A drive tire loaded to 4,520 pounds would be underinflated at 75 psi. It all depends on the load on the tire and the minimum inflation pressure for the load.?

Why should we worry about defining underinflation? Because of the Federal Motor Carrier Safety Administration's CSA (Compliance, Safety, Accountability) enforcement program.

The Commercial Vehicle Safety Alliance is currently exploring how to define underinflation for enforcement purposes. CVSA has already settled on a definition of a "flat" tire: 50% of the max cold inflation pressure stamped on the sidewall of the tire, e.g., 60 psi in a tire stamped for its max load at 120 psi inflation pressure. That's clean and simple; now CVSA wants a similarly clean and simple definition of under-inflated.

That won't be as easy.

Peggy Fisher, president of Tire Stamp, led a discussion at this year's annual meeting of ATA's Technology and Maintenance Council on the subject and failed to resolve the question. Difficulty arises because of an almost outdated DOT requirement that evaluations of hot or in-service tires be temperature-compensated.

"DOT inspectors won't usually check tire pressure unless they suspect a problem, like the tire looks soft," Fisher said. "The problem is they have nothing to go by except what's stamped on the tire. To determine the proper inflation pressure of a tire, they need to know the temperature of the tire and the load on the tire. All that comes into play in determining the proper inflation pressure of a tire."?

Back in the days of tube tires, it was established that inspectors would subtract 15 psi from the gauged pressure of the tire to compensate for temperature. For example, a hot tire gauged at 85 psi would be considered cold-inflated to 70 psi. If that seems low, consider that according to the Goodyear's and Bridgestone's Load & Inflation tables, a 70-pound tire can still carry a load of 3,875 pounds. Michelin allows up to 4,500 pounds at 70 psi. Even at 3,875 pounds per tire, that would still allow 31,000 pounds over a tandem axle group. Is that tire actually underinflated with a light load?

There was also a CVSA official in the room at TMC. Kerri Wirachowsky of CVSA's vehicle committee, said the definition has to be simple or officers won't get it right.

"I don't think a lot of trucks get citations for underinflation, but they are getting written up on the inspection reports and that's just as impactful as far as CSA is concerned," she said. "As an officer checking tire pressure at roadside, I might not be at a scale; I don't know the load or the temperature of the tire. There's no way I can tell the variation between hot and cold. If you're going to make a reg change, get rid of the minus-15 and go to the lowest common denominator."?

TMC and CVSA are still working on this, and a solution doesn't seem close at this point. But maybe this information can help you in a DataQ challenge. Is that 70-psi tire really underinflated?

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Load & Inflation Table examples

Michelin 275/80R22.5

Steer 5,980 @ 105 psi; 6,175 @ 110 psi

Drive/trailer 4,770 lb single @ 75 psi

Bridgestone 295/75R22.5

Steer 5980 @ 105 psi; 6175 @ 110 psi

Drive/trailer 4540 lb single @ 80 psi

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Goodyear 295/75R22.5

Steer 5,980 @ 105 psi; 6175@110

Drive 4,690 @ 75 psi

Do you know the correct inflation for your tyres and how under inlated tyres can affect you, your drivers and your bottom line.