MultiTrac Suspension
Suspension theory
The main premise behind the kinematics used on MultiTrac models is simple: get the best suspension performance through a balance of small bump compliance and pedal efficiency, while also maintaining good midstroke support and superb bottom-out control.
ALPINE TRAIL • RIFT ZONE 29 • RIFT ZONE 27.5 • RIFT ZONE 26/JR
MultiTrac Leverage Curves
Marin's MultiTrac suspension utilizes different leverage curves, based on the model and suspension travel, ensuring that the rider has a system with the best balance between efficiency and control possible.
Balance of small bump and pedal efficiency
WHY
This gives riders a plush feel without
sacrificing power transfer to the
ground through unwanted suspension
movement.
WHAT
The beginning movement of the
suspension smooths out small
chatter bumps, allowing the bike to
carry more speed through changing
trail situations, as well as providing
enhanced comfort and control for
the rider, without sacrificing power
transfer or traction.
TECH
Multitrac model utilize low starting leverage curves as well as antisquat values that are within 90-110% throughout the entire gear range.
Mid-Stroke Support
WHY
It allows the bike to maintain proper geometry while riding through rough terrain and prevents blowing through travel when pushing corners. This is how suspension is intended to feel.
WHAT
The bike maintains consistent and controlled geometry and rear wheel traction through rough trails, allowing a predictable ride through varying terrain.
TECH
The linear mid-section of the leverage curves plays perfectly with current shock technology to ensure good support, and anti-rise numbers that ensure that proper bike geometry is maintained on steep sections of trail.
Bottom Out Control
WHY
So you don’t blow through the bike’s travel on hard hits. This is critical to maintain control and inspire confidence when it is most needed.
WHAT
“Ramping up” at the end of the suspension travel to mitigate hard bottom outs, as well as provide a more controlled ride feeling as you get to the end of the travel, especially on hard hits and landings.
TECH
A “regressive hook” is utilized in the end of the travel, mechanically building force that slows the wheel and resists harsh bottom out, while also keeping stresses on the rear shock to a minimum on larger impacts.