When working in wet muck, rice, or cane fields, it is mandatory to have proper tires that will help you navigate those terrains. With this being said, meet the Samson R-2, which is ideal for such conditions. Thanks to its deep tread, this rear tractor tire provides excellent traction and stability.
Primarily, the Samson R-2 has a special tread pattern that is optimized for wet soil. Specifically, the directional lug design grants the necessary traction to make it smooth to drive through such conditions. The tread blocks have a unique "hook" shape that creates extra biting edges, ultimately improving grip and stability. Moreover, the soft shoulder edges apply a gentle touch to the surface, minimizing soil impact and protecting the crops from crushing. Also, this tire ensures a low risk of clogging or slipping in loose environments thanks to its high void ratio. It keeps the footprint clean by throwing mud and water away.
In addition, the reinforced sidewalls of the Samson R-2 offer protection from potential lateral impacts, keeping the rim safe from harm. Also, they upgrade the load capacity, allowing a single tire to lift weights of up to 6,590 lbs, depending on size. Its advanced rubber compound combined with deep tread blocks minimizes wear and tear, promising a long service life. Aside from that, this creates a low rolling resistance which cuts fuel usage, boosting efficiency. A tube type build raises durability by acting as an additional layer of protection against deep cuts and punctures. Finally, this model is available on the market in popular sizes such as 9.5-24, 14.9-24, 18.4-30, and more.
Features and benefits
- Premium agricultural rear tire ideal for wet rice, muck, and cane farming applications.
- Special tread pattern with deep lugs provides the best traction and stability.
- High void ratio keeps the patch clean of mud and water to increase control and safety.
- Rounded open shoulders apply a gentle touch on the ground to prevent soil compaction.
- Tough sidewalls shield the rim from damage and upgrade the maximum load capacity.