Brake disc ATE 24.0136-0134.2 360,0x36,0mm, 5x112,0, two-part brake disc, perforated/vented

ATE 24.0136-0134.2 Brake disc – Key Features & Performance

The ATE 24.0136-0134.2 Brake disc delivers consistent structural rigidity and precise lateral run-out control, ensuring reliable stopping capability for demanding driving conditions. By utilising advanced metallurgical casting and superior heat management, the component minimises thickness variation across the friction surface. This technical design promotes stable pad contact, providing the necessary precision for professional maintenance tasks and long-term vehicle safety.

Engineering requirements for heavy-duty applications

This component is specifically developed to manage high loads encountered during frequent transit. ATE 24.0136-0134.2 Brake discs provide robust support for SUV use through enhanced material density. The architecture proves ideal for van use by distributing thermal stress evenly across the hub interface. Operators involved in heavy-duty use will observe minimal deformation even under sustained friction. For commercial use or regular towing, the structural integrity ensures consistent feedback at the pedal.

Internally ventilated discs for thermal management

The ATE 24.0136-0134.2 Brake disc set incorporates an optimised airflow design to mitigate surface temperature spikes during rapid deceleration. Precisely engineered cooling vanes allow ambient air to circulate through the core of the casting. Being internally ventilated, this part prevents the structural fatigue often seen in standard solid designs. The ventilated structure significantly improves air movement across the friction track. These components ensure that high-speed braking remains responsive throughout the entire service interval.

Advanced corrosion resistance for extended service

Long-term protection is achieved through a specialized zinc-coated finish that prevents surface oxidation on non-friction areas. Effective rust protection shields the hub and outer edges from environmental degradation and salt exposure. Applying an anti-corrosion coating ensures that the aesthetic finish remains consistent throughout the component's life. The corrosion-resistant barrier also prevents seizing at the wheel-to-disc mating surface. Consequently, maintenance technicians experience easier removal and replacement procedures during routine servicing.

Engineered cooling efficiency for thermal regulation

The internal cooling channels facilitate rapid heat dissipation even under aggressive driving patterns. By promoting fast heat dissipation, the disc geometry prevents the fluid boiling associated with extreme thermal saturation. Implementing optimised airflow through the central cavity allows for improved cooling compared to conventional, non-directional rotors. This ventilated design ensures the friction material operates within its ideal temperature range. Sustained thermal stability remains a core benefit of this sophisticated manufacturing approach.

Comparison with top brands and manufacturers

Selecting from trusted brands ensures that your vehicle receives components engineered to stringent safety tolerances. Many reputable manufacturers offer varied options, but specific metallurgical choices distinguish the best brake disc brands from generic alternatives. Using well-known brands provides the assurance that the metallurgy complies with current European safety standards. While many quality brands are available, ATE remains the focus for precision-engineered braking solutions.

Maintaining warp resistance under pressure

The metallurgy of the ATE 24.0136-0134.2 Brake disc remains stable under stress, resisting the structural twisting common in lesser-grade items. Its deformation-resistant properties ensure that the rotor surface stays perfectly planar even when subjected to intense friction. The composition maintains shape under heat to prevent irregular pad wear and surface scouring. This warp-resistant design guarantees a predictable and linear feel during heavy brake application.

Optimised braking performance for road safety

Achieving high braking performance necessitates a friction surface that interacts consistently with the pad compound. The unit is designed for improved braking efficiency, directly translating pressure into rapid deceleration. Engineers focused on high friction performance to ensure the vehicle meets or exceeds expected stopping distances. The maximum stopping power provided by this assembly is a result of tight manufacturing tolerances. Drivers benefit from a strong braking force that remains predictable regardless of environmental variables.

Manufacturing standards for the premium class

This component is produced to a premium standard that meets original equipment benchmarks. OE quality is guaranteed through rigorous factory testing of both the casting and the final machining stages. As one of the top quality options on the market, it offers the durability expected of a professional grade part. Seeking premium quality parts remains the most effective strategy for ensuring vehicle reliability. Many high-end applications require the structural consistency offered by these top-tier brands.

Eliminating vibration for driver comfort

The precision balancing of the rotor ensures no steering wheel wobble is felt by the operator. By ensuring no vibration is present, the component contributes to a composed and safe driving environment. The manufacturing process prioritises smooth rotation, which is critical for consistent pad engagement. Advanced anti-judder measures prevent harmonic resonance during braking, providing a silent and effective operation.

Reliable heat resistance for extreme conditions

Thermal stability is a mandatory requirement for components tasked with managing the energy of modern high-performance vehicles. The material composition handles high heat without losing structural cohesion. By utilizing fade-resistant materials, the disc ensures the brakes function effectively after consecutive stops. This heat resistant quality is vital for mountainous routes or heavy traffic. Exceptional high temperature resistance ensures that the brake fade is effectively mitigated during extended use.

ATE 24.0136-0134.2 Brake discs: Key Performance and Safety Highlights

The engineering specifications of 24.0136-0134.2 ATE Rotors are verified against stringent automotive standards. This documentation outlines the physical properties that contribute to the longevity of the braking system. The following table provides a breakdown of technical attributes.

Installation of the ATE 24.0136-0134.2 Brake disc set ensures that the entire assembly maintains mechanical harmony. Modern vehicles require precise rotor specifications to avoid premature pad degradation. Utilising this ATE 24.0136-0134.2 Brake disc guarantees that the anti-corrosion coating provides long-term protection against the elements.

Why the ATE 24.0136-0134.2 Brake disc is an Excellent Choice

The ATE 24.0136-0134.2 Brake disc reflects a commitment to OE quality standards. Its wear characteristics are balanced to optimise the cost-per-mile efficiency of the entire braking system. By minimising the necessity for premature rotor replacement, it represents a sound investment for vehicle maintenance. These rotors provide reliable service for professional technicians demanding consistent performance.

Expert evaluation of ATE 24.0136-0134.2 confirms that the metallurgy is consistent with high-load requirements. The ATE 24.0136-0134.2 Brake disc set demonstrates superior geometric tolerances compared to entry-level alternatives. This specific part serves as a dependable replacement for aging factory components. Please consult your vehicle’s technical manual for correct fitment torque settings to ensure professional installation.