Brake Pad Wear

FRICTION COEFFICIENT CALCULATED

Brake Architect

Friction Life Analytics

ESTIMATED LIFE REMAINING

KILOMETERS (KM)

NEW PAD THICKNESS (mm)

CURRENT THICKNESS (mm)

KM DRIVEN ON THESE PADS

MINIMUM LIMIT (SAFETY)

REMINDER PROTOCOL

Brake Pad

The Kinetic Stopper. Brake pads are the Friction Interface. They convert motion into thermal energy to provide controlled deceleration.

🧱 Compound: Ceramic or Metallic for 2026 grip.
🔥 Thermal: Capable of glowing red under heavy use.
🔊 Indicator: Squeals when the material is low.

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🛑

FRICTION TELEMETRY

85 % LIFE

TEMP: ⚡ 180°C

CERAMIC COMPOUND ACTIVE ✅

Friction Power

The Motion Anchor. We use brake pads to harness the Thermal Exchange. They are the only component standing between a high-speed cruise and a safe, static stop.

🌡️ Heat Sink: Absorbs 500°C+ of energy.
📉 Sacrificial: Saves the expensive rotors.
🛡️ Safety: Provides the "Grip" to stop instantly.

🏎️💨

KINETIC ENERGY DRAIN

STOPPING...

PRESSURE: ⚡ MAXIMUM

FRICTION CAPTURE ACTIVE 🛑

Pad Activity

Dynamic Friction. Brake pad activity is the Real-Time Load on your stopping system. It tracks heat spikes and material wear during every deceleration.

📊 Intensity: Tracking "Light" vs "Heavy" usage.
🔥 Thermal: The active heat build-up per stop.
📉 Fade: Monitoring efficiency loss as pads get hot.

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LIVE LOAD SENSOR

ACTIVE

PSI: ⚡ HIGH

FRICTION EVENT DETECTED 🏁

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