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Enlarge Galaxy LHD-500B
Description Galaxy LHD-500B
Galaxy LHD-500B — a high-tech element of the power plant of quarry and earthmoving equipment. The specialized design with a super-deep tread is a power matrix designed to absorb and distribute energies that are not subject to ordinary tires. This is a reliable tire for dump trucks, loaders and excavators.
Tread as a structural damper
The architecture of the super-deep L-5 tread is a multi-layered protection system. Its depth, first and foremost, serves as a protection system, absorbing shock loads from sharp rocks and uneven quarry bottom, protecting the critically important frame from destructive shocks.
Increased rubber volume — a calculated resource that allows the tire to work effectively for thousands of hours even in conditions of extreme abrasive wear.
Nanocompound
The "heart" of durability is a patented composition that represents a composite material. Super-strength polymeric fibers and ceramic microparticles are integrated into the elastomeric base. This structure creates the effect of an "internal mesh", radically increasing the resistance to cuts, chips and tears. The basic components of the compound work as heat-removing channels at the molecular level. This allows for effective heat dissipation generated by the constant deformation of the massive tire under load.
Even pressure
The shape and pattern of the tread are optimized to form the widest and most stable contact patch even on uneven terrain. This ensures a uniform distribution of the weight of a multi-ton machine, increasing overall stability and, most importantly, reducing point pressure to improve passability.
Key features of Galaxy LHD-500B:
- special compound and L-5 architecture for maximum protection against cuts, chips and wear;
- special formula of the composition for effective heat dissipation and operation in the mode of constant extreme loads without overheating;
- super-deep tread layer as a guaranteed mileage reserve in the most severe operating conditions;
- reinforced frame and optimized profile for stability, passability and protection against shock loads.
