Motul DOT 4 LV (Low Viscosity) Brake Fluid

Out of stock
SKU: MODOT4LV500
Regular price $22.00
Size
PRE-OWNED DISCLAIMER

All pre-owned parts are sold in used condition and may show minor marks, scratches, wear, fading, or other signs of previous use. We strongly recommend carefully reviewing all photos provided, as they form part of the item's description.

Unless otherwise stated, any tyres shown on pre-owned wheels are not included in the sale and are displayed for fitment or presentation purposes only.

Motul DOT 4 LV (Low Viscosity) is a 100% synthetic brake fluid designed specifically for modern vehicles equipped with advanced braking electronics such as ABS, ESP, and traction control systems. Its low-viscosity formula allows the fluid to circulate more quickly through the micro-valves of these systems, improving braking response and stability control performance.

Compared with standard DOT 4 fluids, the lower viscosity at very low temperatures ensures faster hydraulic response and consistent braking feel, especially in vehicles with sophisticated electronic braking modules.

The fluid also features a high boiling point for strong resistance to brake fade, helping maintain reliable braking performance under demanding driving conditions.

Key Features

  • 100% synthetic DOT 4 Low-Viscosity brake fluid
  • Optimised for ABS, ESP, and ASR stability systems
  • Dry boiling point: ~267 °C
  • Wet boiling point: ~172 °C
  • Very low viscosity at −40 °C (675 mm²/s) for fast hydraulic response
  • Excellent anti-corrosion and seal compatibility

Specifications

  • Brand: Motul
  • Product: DOT 4 LV (Low Viscosity)
  • Fluid Type: DOT 4 brake fluid
  • Oil Type: 100% Synthetic (glycol-based)
  • Dry Boiling Point: 267 °C / 513 °F
  • Wet Boiling Point: 172 °C / 341 °F
  • Standards: FMVSS 116 DOT 3 / DOT 4, SAE J1703 / J1704, ISO 4925 Class 6

Why Choose DOT 4 LV?

Motul DOT 4 LV is ideal for modern European and performance vehicles that require low-viscosity brake fluid for electronic braking systems. The formulation ensures faster response in ABS/ESP modules, stable braking performance, and reliable protection for hydraulic components.