advanced level adults looking for the manoeuvrability of a low bow combined with the power of 95% carbon This stick's technical features (weight, low bow, carbon) make it perfect for technical skills, especially 3D techniques
Among low bows, the 95% carbon requires greater control. Textured surface.
Among low bows, the 95% carbon provides improved power.
Ease of handling
Low bow 24 mm/250 mm and 390 mm balance for easier 3D play.
The stiffness of the carbon is offset by the PE/EVA foam under the grip.
Comfortable perforated PU grip, handle diameter of 30 mm
The 95% carbon and 5% aramid fibres confer more durability.
FOOTBALL / BASKETBALL / RUGBY / … RUNNING FIELD HOCKEY
80% to 100% carbon
HOCKEY STICK BOW
LEVEL OF PRACTICE
LOCATION OF PRACTICE
The respected hockey news site The Hockey Family has named the FH900 as the most competitive stick on the market. The stick has won praise for it's balance of feel and power.
95% carbon, 5% aramid
Low bow; bow position: 250 mm; bow height: 24 mm; weight: 550 g +/- 20 g; balance: 390 mm
Japanese 12 K 800 Tex carbon fibre (Toho Tenex) and 1080 Tex fibreglass. Hollow twin channel structure. Aramid in the head. Slimmer shaft for improved grip and handling. 45° head for manoeuvrability. Slimmer head and toe for manoeuvrability. Textured strike surface for control. 1 mm polyethylene ethylene-vinyl acetate (PE-EVA) foam under the grip to dampen vibrations.
Perforated polyurethane (PU) grip (1.8 mm thick) for good grip. Handle length: 42 cm for 36.5", 45 cm for 37.5". Total handle diameter 31 mm. Shaft width and length at 47 cm from tip: 3.7 cm / 10 cm.
While hockey sticks were traditionally made from wood (oak, mulberry), today most sticks (and especially the most technical) are made from composites (fibreglass, carbon fibre and aramid fibre; Kevlar is the brand name of a type of aramid). Sticks may also be 100% wood, in wood with fibreglass reinforcements, 100% fibreglass, in fibreglass with a fairly high carbon content (often 5%-10% aramid when the percentage of carbon is very high).
Fibreglass is harder and more rigid, lightweight and abrasion resistant than wood. It will give you more power but less control and a greater feeling of hardness. Carbon is lighter and more rigid still, providing even greater power and less control if your technical skills aren't at a high level. Aramid is used in addition to carbon in the shaft to dampen vibrations. It may also be used in the heel for increased abrasion resistance.
A stick made of composites is made of several sheets of fibre rolled around a hollow core, which is made of one or more channels. The mix of components, the number of fibre layers and the core structure vary in the different sections of the stick and from one stick to another. The percentage of carbon alone does not tell you very much about a stick's features.
Children just learning to play should opt for wooden sticks. As they improve, they can switch to a fibreglass stick and later to a stick with a reasonable percentage of carbon. Adult beginners can start out with a fibreglass stick. Adults at an intermediate or advanced level should choose a carbon percentage that corresponds to their playing style (a balance of control and power).
A hockey stick is not straight but rather has a curve (called the bow). The curve varies by its maximum height (the maximum vertical space between a stick set on a flat surface and that surface) and the place where this height is at its maximum, measured from the tip of the head (called the bow position). Traditionally, sticks had a bow height of around 15 mm and a bow position around halfway up the stick.
A "standard bow" is when the bow height is around 17 mm to 20 mm and the bow position is at 300 mm. A "mid bow" stick generally has a bow height of around 23 mm to 24 mm with a bow position at 300 mm. For a "low bow" stick, these measurements are usually 24 mm to 25 mm and 250 mm. An "extra low bow" stick will be 24 mm to 25 mm and 200 mm.
Beginners should choose a standard bow. Intermediate or advanced players looking mainly for ball control, passing and shooting should choose a mid bow. Advanced players who dribble a lot and have strong 3D skills and perfect control during quick play can go for a low bow stick. For drag flicking, choose an extra low bow.
According to FIH rules, the maximum stick weight for field hockey is 737 g. Most adult sticks (sizes 36.5"-37.5") weigh between 520 g and 580 g. Children's sticks start at 400 g. Stick weights may vary by 20 g to 30 g even for the same model due to manufacturing processes.
For sticks of equal weight, the way the weight is distributed across the stick is what makes the difference. The balance is the gravity point as measured from the tip of the head. A balance closer to the handle will feel light. This makes handling easier. A balance closer to the head (called head heavy) will feel like there's more weight in the hands. This increases the stick's power.
If you need manoeuvrability, choose a lightweight stick with a higher balance. If you're looking for power, choose a heavy stick with a lower balance.
Stick sizes are given in inches. 1" = 2.54 cm. For adults, the standard size is 36.5". Certain sticks are available in 37.5", for greater reach and increased power. They are for very advanced players. A player over 1.85 m tall may also choose a 37.5" stick, but they should make sure the other features (composition, bow, etc.) are suited to their level.
According to FIH rules, a field hockey stick may not be longer than 41" (105 cm).
The right stick is one with the right size, composition (an internal structure), bow, weight and balance for you.
This stick was designed by our product development team comprised of field hockey players who are passionate about their sport (product managers, designers, engineers, garment designers, and prototype and lab technicians) as well as Decathlon materials and composites process specialists, our technical partner Jill Boon (a player for the Belgian Red Panthers) and one of world's leading hockey stick manufacturers.
The information here was provided by the manufacturer or observed by our teams from samples received from the manufacturer.
Wipe off any sand that remains on your stick.
Our sticks are tested in the lab and in the field by our panel of testers under real playing conditions.