SPORTRAK Aftermarket R/T Tires Size 285/75R16LT
The tires 285/75R16LT SP782 by SPORTRAK are designed with Rugged Terrain (R/T) features, offering an excellent balance between off-road durability and on-road comfort. The durable tread and deep grooves ensure traction on challenging surfaces such as mud, rocks, and sand.
Their reinforced construction provides protection against punctures and wear, while the design minimizes noise during driving. These tires are ideal for drivers seeking durability and performance in diverse environments.
SKU: SP782-285-75-R16LT
Specs:
- Size: 285/75R16LT
- Brand: SPORTRAK
- Standard rim: 8J
- Range: R/T (Rugged Terrain)
- Section width (S.W): 286.00 mm
- Overall diameter (O.D): 840.00 mm
- Load index & speed rating: 126/123S-10PR
Features:
- Ideal choice for mixed conditions: Suitable for asphalt roads as well as off-road routes.
- Excellent balance: Combines durability on challenging terrains with comfort for daily driving.
- High performance: Offers stability and grip on all types of terrain.
- Flexibility: Designed for drivers frequently navigating mixed environments.
- Comfort and safety: Minimizes road noise while ensuring steady control.
Important notes:
- Price Per Tire: The price shown is for one tire only.
- We prioritize the safety and satisfaction of our customers. We highly recommend professional installation. Specialists ensure efficiency without compromising quality.
- For any questions or clarifications regarding package contents, specifications, pricing, shipment, installation, and more, feel free to contact us at any time. (See the contact page for more information)
About the product:
The tires 285/75R16LT SP782 by SPORTRAK are ideal for 8J width rims, with a section width of 286.00 mm ensuring stability and grip. The 840.00 mm outer diameter provides durability and excellent performance on various surfaces.
With Rugged Terrain (R/T) technology, these tires are designed for mixed conditions, while the load and speed index 126/123S-10PR guarantees reliability and resilience across different environments.