Excellent safety performance contributes to improved work efficiency
Solid tires are constructed entirely of rubber, maximizing their puncture resistance. During forklift operation, especially in harsh environments, solid tires effectively eliminate the risk of punctures, thus improving forklift safety and stability.
Solid tires exhibit low load-deformation, good operational stability, puncture and tear resistance, and require no inflation. This avoids the arduous task of frequent tire repairs and changes, increasing vehicle utilization and work efficiency. In low-speed, high-efficiency forklift operation, solid tires can completely replace pneumatic tires, meeting the forklift's operational needs.
A rational structural design ensures superior tire performance: Solid tires utilize an advanced three-section design, consisting of a base rubber, intermediate rubber, and tread rubber. This design ensures the tire's overall performance.
High-rigidity, high-strength base rubber and steel ring support guarantee both tire stiffness and a secure fit between the tire and rim, fundamentally eliminating the slippage problem inherent in solid tires. The highly elastic intermediate rubber effectively absorbs vibrations generated during vehicle operation, providing a comfortable ride while preventing damage to the vehicle.
The thickened tread layer ensures the tire's tear and abrasion resistance, extending the lifespan of solid tires.
Advanced technology and formulation design
Solid tire production boasts over half a century of history and extensive experience, employing advanced technology and formulation design.
In terms of rubber formulation design, the base rubber uses imported high-rigidity, low-heat-generating compounds, minimizing heat generation and temperature rise during tire operation while improving heat resistance. This solves serious problems associated with solid tires, such as swelling, slippage, and bursting due to temperature rise.
The advanced formulation design also reduces rolling resistance. Testing shows that the rolling resistance coefficient of solid tires is comparable to that of pneumatic tires, resolving the issue of increased fuel consumption associated with switching to solid tires.
To prevent tire blowouts and subsequent loss of control, and to promote safe production
When a pneumatic tire is traveling at high speed and collides with obstacles such as potholes, the tire may experience severe compression deformation between the obstacle and the rim flange. This can cause the tire carcass cords to break, forming bulges, or even leading to tire rupture upon impact, resulting in a sudden and complete loss of air and potentially causing loss of vehicle control.
Compared to pneumatic tires, solid tires offer advantages such as higher safety, puncture resistance, tear resistance, wear resistance, and longer lifespan. In the industrial vehicle sector, solid tires are an ideal replacement for pneumatic tires. With the development of industrial vehicles and the improvement of solid tire manufacturing technology, these tires are being used more and more widely.

