SIZE | LOAD INDEX | SPEED INDEX | PLY RATING | TREAD DEPTH(mm) | MAX LOAD/KG | INFLATED SIZE | A.P. | |||
SINGLE | DUAL | SW (MM) | OD (MM) | KPA | PSI | |||||
11R22.5 | 146/143 | K | 16PR | 20 | 3000 | 2725 | 279 | 1058 | 830 | 120 |
11R24.5 | 146/143 | K | 16PR | 20 | 3250 | 3000 | 279 | 1104 | 830 | 120 |
295/75R22.5 | 146/143 | K | 16PR | 20 | 3000 | 2725 | 290 | 1022 | 830 | 120 |
Classic mix-pattern design, suitable for driving wheels.
Vertical and horizontal mixed pattern design improves the driving performance , braking performance and wet skid resistance.
Closed shoulder design and deep pattern make tire more wear-resistant, non-biased wear, low noise.
New tread formula, good wear resistance, low heat generation,high strength, greatly extend the service life.
Suitable for medium andlong distance transportation on provincial national roads and high-speed road conditions.
Buffalo ARD4 is an ultra-fuel-efficient drive radial designed for tandem-axle applications in long-haul and regional service.
A breakthrough in low rolling resistance through proprietary compounds and design, the Buffalo ARD4 is engineered to go easier on your pocketbook.
Utilizing proven irregular wear-fighting technologies, the result is exceptional fuel economy and removal mileage.
A wide tread profile provides stability and uniformity which reduces distortion, delivering outstanding handling performance and improved tread life.
Enhances fuel efficiency by combining a low rolling resistance tread and casing design with energy-saving proprietary sidewall compounds
Buffalo ARD4 sidewalls reduce overall tire weight to improve fuel efficiency without sacrificing durability
Continuous shoulder and high rigidity tread pattern fight irregular wear for long tread life and Low rolling resistance
Exclusive tread compound for on and off-road conditions
Improved anti-chip, cut resistance, and endurance.
Rigid carcass cord. Endured heavy load and endures heavy loads and high speeds.
Ultra high strength bead wire. Improves uniformity and durability of the bead position.