Snowboard Woman Lotus Salomon
The Lotus snowboard features a soft flex and a forgiving profile that ease progression and mitigate shock for beginners. This Directional Twin features BiteFree edges to catch good freestyle slides.
BEGINNER AND INTERMEDIATE
|snowboard terrain||PARK AND FREESTYLE / ALL-MOUNTAIN|
Its Directional Twin shape is comfortable on both freeride and freestyle terrain.
Its Flat Out Camber provides a flat profile at the tip/tail and between the feet. In addition, it has an arch underfoot for greater stability and better response when you need it.
BiteFree edges to slide creatively and safely.
Size and technical specifications
Data for table sizes 142/146 (mm)
|contact length|| 1025
Binding sizes and recommendations
|skier max weight||60kg||65kg|
|Minimum skier weight||35kg||45kg|
BOARD PROFILE: Flat Out Camber
Flat profile loaded with an arch underfoot for maximum stability and response when you need it.
Created from a perfect circle, Radial is the classic sidecut for logical response from both forward and switch.
CORE TYPE: Aspen
Full length poplar wood with birch slats for better insert retention.
SHAPE: Directional Twin
Twin shape for freestyle movements with directional flex that develops power at high speed. The position of the bindings is slightly offset from the center to the rear.
FIBER AND RESIN: BA LD fiberglass
The use of low-density fibers allows us to produce lighter boards that maintain their forgiving and playful flex.
SOLE MATERIAL: Extruded
Offers long glide with little maintenance.
SOLE FINISH: Standard stone-polished finish
Our standard stone finish is the industry benchmark for high-end boards, the only difference being that it's our "basic" finish.
SOLE FINISH: Natural wax
Paraffin-free wax compound made from natural ingredients. Non-polluting compound that meets the highest sliding speed standards.
EDGE FINISH: BiteFree
A completely lowered and high factory spatula for a smoother glide and not leave you hanging when nailing the edges.
FSC certified wood core
Its molecular structure could be similar to that of a concrete bar, combining hardness for energy transfer and cushioning properties for shock absorption.
Shape: Directional Twin