Tilton 73-Series Master Cylinders

$63.75
(Exc. 8% Sales Tax - GA only)
0.750
0.875
1.000
Order today, dispatch in 3-7 days
+
MPN
73-875
Tilton
Information

Tilton 73-Series Master Cylinders - High-Capacity, Leak-Proof Design

These 73-Series alloy hydraulic master cylinders are designed for applications that require a larger fluid capacity in a leak-proof integral reservoir. They are unique in that they may be temporarily inverted without loss of fluid, as the fluid chamber is completely sealed from the outside environment whilst still allowing fluid level changes.

The 1/8 NPT fluid port which can be converted to -3 JIC if required, the integral 295ml reservoir provides ample fluid capacity and the industry standard 2.25" (57mm) (centre-to-centre) flange mounts apply, suitable for brake, clutch or hydraulic handbrake operation.

In 3 popular bore sizes, these affordable cylinders are ideal for the budget racer and fit the Tilton 600-Series pedal assemblies/balance bars.

Variant Size Options

  • SKU: 73-750: Bore size 0.750" / 19.05mm (3/4") internal diameter
  • SKU: 73-875: Bore size 0.875" / 22.22mm (7/8") internal diameter
  • SKU: 73-1000: Bore size 1.000" / 25.40mm (1") internal diameter

Key Features

  • Lightweight Aluminum Construction – Engineered for reduced weight and enhanced durability.
  • Multiple Bore Sizes Available – Choose from sizes ranging from 0.625” to 1.125” to suit your specific needs.
  • Versatile Application – Suitable for both brake and clutch systems, offering flexibility across different racing setups.

Applications

  • Commonly used in single-seater race cars, sports cars, and kit cars where space efficiency and performance are critical.

Optimize your braking and clutch performance with Tilton’s 73-Series master cylinders—reliable, durable, and designed for racing success.

Setup Videos
  
Specification
BrandTilton
MPN73-750, 73-875, 73-1000
P65 Warning
 "WARNING: This product contains a chemical known to the State of California to cause cancer and/or birth defects or other reproductive harm.

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