- The most versatile technical ice crampon on the market
- Patented heel slide design integrates the benefits of vertical and horizontal frame crampons
- The patented heel slide is constructed from proprietary Sandvik Nanoflex® steel for the optimal blend of strength, flex and lightweight
- Interchangeable front points are easy to switch from dual to mono, centered or offset
- Optional snow points optimize the crampons for alpine terrain
- Asymmetric design follows the contours of modern boots to ensure a precise fit
- New automatic front bail enhances the fit on modern boots and semi-automatic toe bails allow for use on boots without rigid toe lugs
- New anti-balling plates are more dynamic to help prevent snow build up
- Micro-adjustable linking bar for fine tuning the length
- New heel bail with 3 height settings
- Available in two sizes for optimal boot fit
- Comes pre-equipped with mono-points and automatic toe bails
- Two extra front points (ref. 0145) and semi-auto toe bails (ref. 0150) are included in the box
- Front platform has been redesigned for higher levels of resistance and strength
- V-shaped chromoly steel front platform offers high rigidity and reduces balling
- Anti-balling plates included
- Adjustable fold-over carrying case with lashing straps included
The Blade Runner represents the absolute top a new era in technical ice crampons. A wealth of innovative features combine to create a crampon that conforms to the ergonomics of modern boots, increases rigidity and performance, and adapts to conditions with a variety of front points and toe bail configurations.
along the entire length of the crampon without decreasing dexterity or compromising fit, adapts to alpine conditions with a variety of front points and toe bail configurations, and reduces balling with its inverted V-shaped front platform.
The patented heel slide integrates the linking bar with the heel piece for better torsional rigidity. This allows the Blade Runner to offer the best of both worlds by combining the power and stability of vertical frame crampons with the precision and ease of adjustment of horizontal frame designs. The entire heel slide is constructed from proprietary Sandvik Nanoflex® steel: an amazingly strong and tough stainless steel that allows for a reduction in the thickness of the frame from 2.75 mm to 1.8 mm, thereby reducing weight while simultaneously increasing strength and providing the right amount of longitudinal flexibility for a precise fit on modern boots with more extreme rocker.
The redesigned front platform is constructed from traditional chromoly steel alloy to absorb impact energy and maintain solid rigidity under foot. The elimination of connection joints leaves little room for play and reduces much of the flex that can make crampons feel insecure seem less secure on technical terrain. The sophisticated geometry of the front points interact with the secondary points on the main frame for easy penetration and superior hold even in the most fickle conditions. Switching the front points between dual and mono, centered or offset, is made easy with the hook and notch system. The optional snow points convert the Blade Runner into all mountain machines with their beveled design and precise shape and spacing that maximizes purchase in ice and hard snow. Optional semi-automatic toe bails also allow the Blade Runner to be used on boots without rigid toe lugs – a great feature for alpine climbing where the bulky toe lug reduces sensitivity and performance on rock. Delivered standard with both automatic and semi-auto toe bails. New anti-balling plates are more dynamic to help prevent snow build-up underfoot.
Sandvik Nanoflex® is an innovative patented steel alloy that is 70% stronger and 20% harder than normal steel which allows for a significant reduction in the amount of metal used, thereby decreasing weight while maintaining strength.
Size 1: 940 g, 33.2 oz
Size 2: 950 g, 33.5 oz
Sizes (European): 36-46 Size 1, 40-49 Size 2
Boot Type: Automatic, Semi-Automatic
Frame Material: Chromoly Steel/Nanoflex
Standards: CE EN 893