
NEOTERIC CAMBER
FIBERGLASS MEDIUM LIGHT
Ski & Steep
Sizes: 156 / 164 / 172 / 180 / 188
€ 550.00
Recommanded Retail Price
NEOTERIC CAMBER MEDIUM LIGHT
you float smoothly and relaxed having an absolute exceptional experience.
The BRAND NEW KRUMPE 80s facilitates turns and permits you to pivot. It’s Energetic and versatile.
The Krumpe ski ensures a balanced skiing, so you float smoothly and relaxed having an absolute exceptional experience. It gives an ease in the steep and in the very technical terrain or in the trees. At the same time you can go amazingly fast and stable.



You ski extremely stable and almost anchored to the snow. You ski even and regular. The long line of contact guarantees a domination of snow. It has a slight camber and you feel the complete ski from tip to tail
at all times. The flex has been engineered to accentuate the neoteric camber giving feeling that is evolutionary.
The ski is made for rocking and that’s what you should do. You want to go strong and fast you got it.
COMPOSITION
Two layers of Fiberglass on top a poplar wood core and underneath two layers of Fiberglass. Strengthened in the upper middle by an X-tape of newest carbon fiber and a ribbon of carbon-kevlar in the tip. Manufactured where all fiber layers, above and below, completely traverse the ski covering the sidewalls, this technic adds a lot of strength.
The ski runs sure and controllable, it dominates the snow.
Light enough to go touring, heavy enough for a strong and solid ski feeling.



KRUMPE 80 NEOTERIC CAMBER MEDIUM LIGHT | |||||
Total Flat Length (cm) | 156 | 164 | 172 | 180 | 188 |
Weight (kg) | 1,55 | 1,65 | 1,75 | 1,85 | 1,95 |
Width Measures: Front, Middle,Back (mm) | 113,80,99 | 117,82,102 | 121,84,105 | 123,86,107 | 125,88,108 |
Radius Average (m) | 14 | 15 | 16 | 18 | 20 |
Radius Center (m) | 12 | 13 | 14 | 16 | 18 |
Nose Rise Length (mm) | 300 | 300 | 300 | 300 | 300 |
Tail Length (mm) | 80 | 80 | 80 | 80 | 80 |
Front Rocker Length (mm) | NO ROCKER | ||||
Back Rocker Length (mm) | NO ROCKER | ||||
Running Length (mm) | 1180 | 1260 | 1340 | 1420 | 1500 |
Camber Height (mm) | 5 | 5 | 5 | 5 | 5 |
Nose Height (mm) | 50 | 50 | 50 | 50 | 50 |
Tail Height (mm) | 8 | 8 | 8 | 8 | 8 |
Middle Boot From Tail (mm) | 640 | 680 | 715 | 750 | 785 |
1CORUNDUM TEXTURE HARD POLYAMIDE

TOPSHEET
The main characteristics of polyamides are as follows:
• Resistance to aging at high temperatures and over long periods.
• High mechanical strength and high rigidity.
• Functional tenacity even at low temperatures.
• Intrinsic resistance to fire.
• Excellent dielectric properties.
• Good resistance to abrasion.
• High oxygen barrier.
2SIDE WALL ABS

ABS
- Especially designed for winter sport applications.
- Charpy impact strength notched: +23 C°/-25C°
- Charpy impact hardness: +23C°/-25C°
- ISO DUR ID1000-147
33-AXIAL FIBERGLASS

FIBERGLASS
E-glass fibre products are particularly resistant to abrasion and vibration and have excellent flexibility. The glass thread has a higher specific resistance (tensile strength/volumetric mass) than that of steel. This feature makes it possible to develop glass threads that reinforce high performance composites.
The main characteristics of Fiberglass are as follows:
• Inorganic
• Good resistance to abrasion and vibrations
• Incombustible
• Rot-resistant
• Resistant to the main chemical agents
• Excellent dielectric strength
• Excellent dimensional stability
43-AXIAL FIBERGLASS

FIBERGLASS
E-glass fibre products are particularly resistant to abrasion and vibration and have excellent flexibility. The glass thread has a higher specific resistance (tensile strength/volumetric mass) than that of steel. This feature makes it possible to develop glass threads that reinforce high performance composites.
The main characteristics of Fiberglass are as follows:
• Inorganic
• Good resistance to abrasion and vibrations
• Incombustible
• Rot-resistant
• Resistant to the main chemical agents
• Excellent dielectric strength
• Excellent dimensional stability
53-AXIAL FIBERGLASS
(MIDDLE SKI POWER SHEET)

FIBERGLASS
E-glass fibre products are particularly resistant to abrasion and vibration and have excellent flexibility. The glass thread has a higher specific resistance (tensile strength/volumetric mass) than that of steel. This feature makes it possible to develop glass threads that reinforce high performance composites.
The main characteristics of Fiberglass are as follows:
• Inorganic
• Good resistance to abrasion and vibrations
• Incombustible
• Rot-resistant
• Resistant to the main chemical agents
• Excellent dielectric strength
• Excellent dimensional stability
6PHENOL
(REINFORCEMENT FOR BINDING)

PHENOL
Phenol ISODUR SKP is used as flank material for our skis.
In this material, the high-strength papers are impregnated with phenolic resins and compressed into sheets of durable, durable and reactive material.
This material is characterized by its excellent mechanical properties.
7CARBON FIBER + FIBRGLASS
(TORSION STABILIZER, CROSS-BAND)

CARBON
Carbon fibers or carbon fibres are fibers about 5–10 micrometres in diameter and composed mostly of carbon atoms.
Carbon fibers have several advantages such as:
• High stiffness,
• High tensile strength,
• Low weight,
• High chemical resistance,
• High temperature tolerance and low thermal expansion.
Its main use is to serve as a reinforcement in composite materials, which makes it possible to obtain parts having good mechanical properties while being significantly lighter than metal parts.
These properties have made carbon fiber very popular in aerospace, civil engineering, military, and motorsports, along with other competition sports.

FIBERGLASS
E-glass fibre products are particularly resistant to abrasion and vibration and have excellent flexibility. The glass thread has a higher specific resistance (tensile strength/volumetric mass) than that of steel. This feature makes it possible to develop glass threads that reinforce high performance composites.
The main characteristics of Fiberglass are as follows:
• Inorganic
• Good resistance to abrasion and vibrations
• Incombustible
• Rot-resistant
• Resistant to the main chemical agents
• Excellent dielectric strength
• Excellent dimensional stability
8ARAMID FIBER + CARBON FIBER + BASALT FIBER
(VIBRATION REDUCER FRONT-BAND)

ARAMIDE
The main characteristics of Aramid Fiber are as follows:
• High tensile strength
• High modulus of elasticity
• Excellent vibration damping factor
• Low density
• Excellent thermal stability from -70 ° C to + 200 ° C
• Does not sustain combustion, does not melt, carbonization at 425 ° C
• Good resistance to fatigue
• Excellent dielectric properties
• Good chemical resistance to fuels, seawater but not strong acids and bases

BASALT
• Good tensile strength (superior to fiberglass)
• Non-toxic and inert, it produces no gas or smoke
• UV resistant, chemicals and remains sterile
• Excellent dielectric insulator
• Excellent impact resistance
• Excellent thermal and acoustic insulation
• Withstands temperatures from -260 ° C to 815 ° C

CARBON
Carbon fibers or carbon fibres are fibers about 5–10 micrometres in diameter and composed mostly of carbon atoms.
Carbon fibers have several advantages such as:
• High stiffness,
• High tensile strength,
• Low weight,
• High chemical resistance,
• High temperature tolerance and low thermal expansion.
Its main use is to serve as a reinforcement in composite materials, which makes it possible to obtain parts having good mechanical properties while being significantly lighter than metal parts.
These properties have made carbon fiber very popular in aerospace, civil engineering, military, and motorsports, along with other competition sports.
9VERTCAL LAMINATED HARD POPLAR WOODCORE

WOODCORE
Poplar wood is tough, with high mechanical strength and strong corrosion resistance; moderate hardness and strength.
Poplar woodcore have several advantages such as:
- Very good ratio of weight, flexibility, stability and torsion,
- Low weight when compared to other cores
- Flexible application possibilities,
- FSC® certified.
10EDGE VULCANIZED RUBBER

RUBBER
Thin rubber used between the metal edge and fiberglass layers to minimize shearing-induced delamination.
Equalising temperature-related expansion and differing stress-strain coefficients.
Suitability for use over a wide temperature range.
Vibration damping up to the point of component decoupling.
11RACE EDGE STAINELESS STEEL
(RACE-EDGE STAINLESS STEEL “C67S”)

STEEL
The steel racing edge provides smooth flex and minimal friction resistance.
The main characteristics of stainless steel are as follows:
• High durability
• Good ductility
• Optimal gliding behaviour
• Improved adhesion
• High mechanical strength
• Good workability
12ULTIMATE HARD SPEED BASE

BASESHEET
• Made of premium crosslink polyethylene.
• Good abrasion resistance, very low stress level.
• Modified with wax for better gliding.
13HEEL SHOCK ABSORBER

HEEL SHOCK ABS
• Especially designed for winter sport applications.
• Charpy impact strength notched: +23 C°/-25C°
• Charpy impact hardness: +23C°/-25C°
• ISO DUR ID1000-147
Certified
ADDITIONAL MATERIALS

WAX
Ski wax is a material applied to the bottom of snow runners, including skis, to improve their coefficient of friction performance under varying snow conditions. The two main types of wax used on skis are glide waxes and grip waxes.
They address kinetic friction—to be minimized with a glide wax—and static friction—to be achieved with a grip wax.
Both types of wax are designed to be matched with the varying properties of snow, including crystal type and size, and moisture content of the snow surface, which vary with temperature and the temperature history of the snow.

RESIN
Bio Based resin is outcoming from the latest innovations in bio-based chemistry.
Bio Based resin is produced with a high content of carbon from plant origin.
The bio-based Carbon content of our supplier’s system is certified by an independent laboratory using Carbon 14 measurements (ASTM D6866 or XP CEN/TS 16640)
This is a significant technological advance on the following points: Clarity, colour, performances and guarantees of industrial tonnages availability.
Certified
Assembled By
