Discover the perfect balance of strength and agility with the Hercules L2 Loader tire, where innovation meets reliability. This model is ideal for on/off road operations, providing the needed traction and durability for success. Its bias build combined with an innovative tread pattern ensures high productivity and efficiency on the job.
Firstly, the Hercules L2 Loader takes advantage of its directional tread pattern that offers the best surface grip and contact. Be it on or off the road, this tire still provides performance, helping operators accomplish their tasks with ease. The overlap of the blocks improves stability, especially when maneuvering the loader. It also raises the steering accuracy, always giving you crisp control of the vehicle. A wide open shoulder design adds extra lateral traction, helping you navigate harsh terrains. Moreover, they promote even wear across the tread to increase the tire's service life.
What's more, the heavy duty casing of the Hercules L2 Loader delivers stability and protection against deep cuts and punctures. This promotes many retread cycles, saving money in the long run. Besides, the deep tread and flat profile combat crowning issues, ensuring full surface contact all the time. In addition, the high void ratio reduces the risk of slipping by boosting the self cleaning ability of the tire. A robust sidewall build upgrades the load capacity, allowing for up to 18,200 lbs per single tire, depending on size. They also shield the rim from damage to prevent downtimes. Finally, this model is accessible on the US market in popular sizes with a rim diameter of 25".
Features and benefits
- High quality loader tire designed for on/off road industrial tasks.
- Directional tread pattern with blocks grants superior traction and stability in various conditions.
- High void ratio keeps the patch clean of ground parts to reduce the risk of slipping.
- Tough rubber compound resists chips and cuts for a long service life.
- Durable sidewalls raise the load capacity and shield the rim from lateral impacts.
