In the construction industry, tire performance is not just a matter of efficiency, it's a matter of safety and profitability. So, choose the right models for your applications to ensure the highest productivity at the work site. For instance, the Bridgestone VHS2 is a strong tire designed specifically for all terrain cranes.
Primarily, the Bridgestone VHS2 features an aggressive tread pattern that tackles the harsh conditions of construction and quarry sites with ease. Its center blocks create numerous biting edges with the surface to boost grip and traction, delivering a smooth ride. Moreover, the advanced rubber compound ensures unmatched durability and a long wear life. Equally important, the optimized materials offer low noise performance, creating a cozier work habitat for the driver. In addition, the closed shoulders maximize stability on a wide range of surfaces. Be it on the road or off the road, the footprint design gives you the best control.
Secondly, the Bridgestone VHS2 allows for fast on road transportation thanks to its amazing tread features. The large and deep grooves keep the patch clean of mud, debris, and other ground parts that might cause slippage or clogging. This also combats irregular wear, promoting longevity. Moving on, the reinforced sidewalls with protector ribs keep the rim safe from lateral impacts. Also, they upgrade the load capacity, allowing a single tire to lift up to 14,800 lbs. A tubeless structure minimizes the chances of pressure loss via unwanted air leaks by securing a tight wheel fit. At last, this model is available in limited sizes that are suitable for many types of mobile cranes. These configurations include 445/95R25.
Features and benefits
- Durable mining/construction tire designed for mobile crane applications.
- Rigid sidewalls withstand heavy loads without collapsing.
- Advanced rubber compound resists wear and tear from constant use.
- Optimized tread pattern with center lugs ensures the best performance both on and off the road.
- Closed shoulders maximize stability and cornering precision under heavy load stress.
