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Enlarge Advance AR835
Description Advance AR835
The Advance AR835 model represents a specialized platform designed for forage harvesters. Each detail of its design has dual functionality: to be an aggressive grip and a soil-friendly support. This is a tire that turns force into controlled interaction.
Reliable Traction
The key innovation is the unique dynamic geometry of the grooves and blocks, which reveals its potential as it works. At the initial stage of movement, the blocks provide a stable ride. As the load increases and potential immersion occurs, the block walls come into play, revealing additional transverse and diagonal edges. This creates additional traction exactly when it is critically needed. The configuration of the elements excludes slipping, ensuring a uniform conversion of torque into linear motion, which reduces vibration and increases operator comfort.
Soil Protection as a Priority
The tread design is based on the principle of maximum pressure distribution. The increased tread width and depth work in tandem, creating an extended and stable contact patch. This radically reduces the impact on the soil, minimizing its compaction – a fundamental basis for preserving fertility. The uniform distribution of weight through massive, correctly positioned blocks improves overall traction, preventing the formation of deep ruts even on wet stubble.
Engineering Resource
The increased volume of the tread due to its depth and width is not only a reserve for wear but also an additional damping layer that protects the carcass from shock loads. The special compound is resistant to cuts, abrasion on the soil, and the effects of agrochemicals, ensuring a long service life in conditions of abrasive loads. The modern aggressive design with clear geometry emphasizes the product's technology, visually reflecting its power and reliability.
Key Features of Advance AR835:
- Progressive traction geometry providing peak effort at various stages of loaded operation;
- Wide and deep tread design for minimizing soil compaction and preserving its structure;
- Significant depth and width of the tread combined with a durable compound for extended service life;
- Optimized block configuration for smooth power transmission, reduced vibration, and improved traction.