ATOMIC Hawx Ultra 115 S W Women's Ski Boots black / white (910), 26.5
- Product Code:
- 46609683
Properties
- Item Display Length
- 21 дюйм(ов)
- Ширина отображения элемента
- 16 дюймов
Design
- Size
- 26.5, 26
- Color
- black / white (910)
- Product Type
- Ботинки горнолыжные
Features
- Size
- 53.34 x 40.64 x 15.24 cm; 3.83 Kilograms, 53.34 x 40.64 x 15.24 cm; 4.14 Kilograms, 53.34 x 40.64 x 15.24 cm; 4.14 kg
- Color
- Black, White
- Material
- Obermaterial: sonstiges Material Futter und Decksohle: Textil, sonstiges Material Laufsohle: sonstiges Material, Материал верха: другой материал Подкладка и подошва палубы: текстиль, другой материал Подошва: другой материал, Obermaterial: sonstiges MaterialFutter und Decksohle: Textil, sonstiges MaterialLaufsohle: sonstiges Material
General characteristics
- Model
- Atomic
Other features
- Brand
- Atomic
- Dimensions
- 53x41x15 cm
- manufacturer
- Atomic
Weight & dimensions
- Height
- 6 дюймов
- Weight
- 4.14 kg
Description
The Atomic Hawx Ultra 115 S W is the sportiest women's ski boot from the lightweight Hawx Ultra line skiers with narrower feet can enjoy the legendary Hawx feel and can experience the slopes completely new.
- Particularly lightweight Prolite construction with strategic reinforcements.
- Reinforced, asymmetric energy backbone for stability and power.
- Power Shift for correction of template angle and flex
- Anatomically perfect fit thanks to memory fit thanks to thermal adjustment of the shell.
- 98 mm narrow strips.
- Medium flex, flex index 115.
- Memory Fit 3D adapts perfectly to the ankles.
- True Flex retains its flex behavior at different temperatures.
- Slim fit.
- Women-specific shaft.
- Warming 3M Thinsulate padding.
- Dual density cantable grip pads for optimal grip when walking.
- 40 mm Velcro strap for adjusting the shaft.
- 6000 series aluminium buckles + micro
- 98 mm narrow strips.
- 13°-17° angle of template.
- 3° rotation shell.
- ISO 5355 Alpine
Outer material: other material.
Lining and insole: textile, other material.
Outsole: other material