M 10.0 COMP EPS

Racing

 

M 10.0 COMP EPS

Data: 
M 10.0 COMP EPS
DIN Range: 
3.0 - 10.0
Recom. Skier's Weight: 
30 - 110 kg
Stand height w/o ski: 
19 mm
Toe system: 
Biotech
AFD Gliding Plate: 
stainless steel
Step-in Heel: 
Compact
EPS System: 
X
Color Combinations: 
white - black - teal
Weight (Pair): 
1700 g

Characteristic

The M 10.0 Comp EPS offers exactly what racing kids need: the perfect entry in the MARKER racing circus. Works great in combination with the Jr Race Interface.

Technology Features

    • Heel Technology
    • Toe Technology
Toe Technology
AFD STAINLESS STEEL

All MARKER bindings are equipped with a moveable AFD (anti friction device) leading to a highly precise release almost entirely unhindered by dirt, snow and ice! Individual adjustment of the AFD to the area of application ensures perfect functionality - from racing, for children’s bindings or on ski tours.

Toe Technology
AFD STAINLESS STEEL

All MARKER bindings are equipped with a moveable AFD (anti friction device) leading to a highly precise release almost entirely unhindered by dirt, snow and ice! Individual adjustment of the AFD to the area of application ensures perfect functionality - from racing, for children’s bindings or on ski tours.

Heel Technology
COMPACT HEEL

A statement of efficiency - with the usual perfect MARKER release properties and the perfect mix of great design, lightness and excellent functionality. This heel technology is perfect for beginners and occasional skiers due to the release properties and is an excellent value.

Heel Technology
COMPACT HEEL

A statement of efficiency - with the usual perfect MARKER release properties and the perfect mix of great design, lightness and excellent functionality. This heel technology is perfect for beginners and occasional skiers due to the release properties and is an excellent value.

Toe Technology
BIOTECH

During a backward twisting fall both horizontal and vertical forces are triggered on the toe of the binding. Biotech recognises this unfavourable force combination and reliably reduces the release force.

 

 

Toe Technology
BIOTECH

During a backward twisting fall both horizontal and vertical forces are triggered on the toe of the binding. Biotech recognises this unfavourable force combination and reliably reduces the release force.