
Motul
MOTUL BRAKE FLUID DOT 5.1 500ml
Regular price
$12.95
- Long life 100% Synthetic Fluid
- For hydraulic actuated brake and clutch systems
- DOT 5.1 NON SILICONE BASE
TYPE OF USE
- All types of hydraulic actuated brake and clutch systems in accordance with DOT 5.1, DOT 4 and DOT 3 manufacturers' recommendations.
- Fluidity specially designed for anti-locking brake systems (ABS).
- Long life 100% Synthetic Fluid
- For hydraulic actuated brake and clutch systems
- DOT 5.1 NON SILICONE BASE
PERFORMANCES
-
Standards :
- FFMVSS 116 DOT 5.1 NON SILICONE BASE, DOT 4 and DOT 3
- SAE J 1703
- ISO 4925 (5.1, 4 & 3)
-
Long life fluid:
- The high wet boiling point (185°C / 365°F), superior to DOT 4 (155°C / 311°F mini) and DOT 3 (140°C / 284°F mini) conventional fluids enables to use this product longer. Indeed, DOT 3 / DOT 4 and DOT 5.1 brake fluids have the property to absorb humidity contained in the air, which reduces their boiling points and consequently security.
- The wet boiling point is representative of the fluid after one year of use.
-
Specially designed for anti-locking brake systems (ABS) :
- The viscosity (820 centipoises at -40°C / -40°F) lower than DOT 4 (up to 1800 cp) and DOT 3 (up to 1500 cp) brake fluids allows an easier fluid circulation in micro-valves of anti-locking systems.
- Perfectly neutral with seals used in braking systems. Anti-corrosion.
RECOMMENDATIONS
- Mixable with DOT 3, DOT 4 and DOT 5.1 NON SILICONE BASE products.
- Do not mix with silicone (DOT 5 silicone base) or mineral base fluids (LHM).
- Store brake fluid in its original container, tightly closed to avoid absorption of moisture.
- Aggressive chemical product if contact with hands, paint or varnish.
- If skin contact, rinse thoroughly with water.
- Drain Interval: 12 to 24 month as per manufacturers' recommendations.
PROPERTIES
100% synthetic fluid, polyglycol bases. | |
Color | Yellow |
Dry boiling point | 272 °C / 522 °F |
Wet boiling point | 185 °C / 365 °F |
Viscosity at -40 °C (-40 °F) | 820 mm²/s |
Viscosity at 100 °C (212 °F) | 2.1 mm²/s |