Usually, heavy duty operations can't proceed further without the proper equipment. Regarding this, Samson has the perfect solution. Meet the L-2E, which is a very durable tire designed for skid steer loaders. With its robust construction and optimized design, this model will conquer all obstacles at the work site.
Firstly, the Samson L-2E comes with a directional tread pattern that ensures top notch performance in terms of traction and stability. The deep angled blocks create plenty of biting edges that improve grip and handling accuracy in harsh conditions. Moreover, the high tread depth minimizes wear and tear, promising a long service life for the tire. Next, the overlapping design at the center of the footprint upgrades the steering precision, giving you full control of the skid steer all the time. In addition, the reinforced sidewalls with rim guards offer protection against lateral impacts, successfully preventing downtime.
Secondly, the open shoulders of the Samson L-2E add extra lateral traction and promote regular wear across the tread. Thanks to its robust build, a single tire can withstand heavy loads of up to 8,005 lbs, depending on size. The advanced rubber compound resists deep cuts and abrasions, prolonging the lifespan of the tread. Also, a high void ratio keeps the footprint clean by throwing mud, debris, and other ground elements away. This raises safety and gives you peace of mind when the weather is not on your side. A tubeless build secures a tight fit of the wheel to prevent air leaks that would damage productivity. Lastly, this model is accessible in a wide range of sizes with a rim diameter of 16.5".
Features and benefits
- Heavy duty industrial tire designed for skid steer applications.
- Tubeless build lowers the chances of air leaks by holding a tight rim fit.
- Directional tread pattern grants excellent traction and stability in various conditions.
- Robust sidewalls protect the wheel from impacts and upgrade the load capacity.
- Complex rubber compound minimizes wear and tear while cutting fuel usage.