Hel Solid Billet 4 Piston Radial Brake Calipers

CNC Machined From 6082-T6 Billet Manufactured by HEL in the UK Lightweight 764 Grams Each Stainless Heat Sink Pistons 100mm & 108mm Versions Free-Flo Internal Fluid Circuit For Rapid Bleeding Road Legal Race Caliper Race Inspired Nickel Plating Solid Billet CNC Machined

Description

Description

CNC Machined From 6082-T6 Billet
Manufactured by HEL in the UK
Lightweight 764 Grams Each
Stainless Heat Sink Pistons
100mm & 108mm Versions
Free-Flo Internal Fluid Circuit For Rapid Bleeding
Road Legal Race Caliper
Race Inspired Nickel Plating

Solid Billet CNC Machined

Many calipers on the market today are forged to hit a lower price point. This limits design as threads and internal flow circuit need to be machine detailed afterwards. HEL calipers are precision machined entirely from race grade solid billet 6082-T6 aluminium – maximising weight and minimising material used. Machined and forged calipers are NOT comparable, so be sure to insist on machined for the very best design, precision construction and finish on the market.

Complete Circuit Technology

Unlike some calipers which only feed from one side, HEL calipers utilise complete circuit technology. This race inspired feature allows fluid to fully circulate the caliper meaning easier and faster removal of air from the system when bleeding.
Heat Sink Pistons
HEL’s stainless pistons act as a heat sink drawing the extreme temperatures generated when racing down into the piston – and away from the caliper body where the fluid circulates. This keeps the fluid at optimum operating temperature and away from boiling point (which varies depending on fluid specification). On track and on the limit the performance advantage is simply stunning, allowing fade-free powerful braking and ultra consistent feel – lap after lap after lap.

World Class Research & Development

The HEL brake lab develops all braking products directly from a huge resource of track data collected from HEL’s Superbike and Road Racing teams. The NEW caliper design is based around very extreme race loading values taken from worst-case scenario calculations – the maximum amount of front brake force possible before the bike would start rotating around the front wheel and actually flip. Structural integrity, stiffness and displacement resistance are all fully optmised for prolonged on-limit use.