Back face of Mercian Elite CK95 Ultimate : HSELCK9523ULT
Front face of Mercian Elite CK95 Ultimate : HSELCK9523ULT
Front face of Mercian Elite CK95 Ultimate : HSELCK9523ULT
Back face of Mercian Elite CK95 Ultimate : HSELCK9523ULT

Elite CK95 Ultimate (2023)

Regular price £270.83 £270.83 Unit price per
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  • Description
  • Technical Details
  • Player Profile

The highest specification stick in the Mercian range, combining a 95% carbon lay-up over a Kevlar skeleton, The Elite CK95 features a quad-carbon sleeve to maximise energy transfer and power and combines it with an Ultimate (extreme) low bend to aid drag-flicking, aerials and 3D skills.

  • 95% Carbon
  • Quad-Carbon Sleeve
  • Ultimate X-Low Bend (24.5mm @ 200mm)
  • 3 process vibration control (Piezo-Electric fibres, M-Gel, EVA under grip)
  • Nano-Polymer Resin
  • Full technical details on the 'technical details' tab
  • Player suitability on the 'player profile' tab

ULTIMATE BEND

The Mercian Ultimate Bend is the most aggressive low bow that we have ever made, with the bend of the stick effectively cupping the ball. The maximum bend at this lowest legal point enhances drag flicking and aerial skills with the balance point of the stick adjusted to also favour 3D dribbling skills. Whilst the shaft weighting aid sticks head speed it still provides power and balance for the slapping and pushing associated with elite level skill execution.

 

CARBON FIBRE: CK95 – 95% CARBON

One of the most common questions asked by the consumer is ‘how much carbon?’ with the perception that more is better. That is far from the truth, so to shed a little light. Firstly, the quality of carbon (manufacturing point) is important. Toray (Japanese) Carbon is often considered the best, but Carbon from Germany, Scotland and South Africa (to name a few) are all high-quality. Sticks are usually made in Pakistan and most major brands will import Carbon into Pakistan to make sticks. Local made carbon is not usually as good. But it is difficult to know if a brand uses imported carbon. The number of filaments in the carbon fibre is relevant, 1K, 3K etc relate to the number of filaments of pure carbon within a fibre or ‘tow’. 1K is used in aeronautical industry and electronics. 3K and 6K are commonly used in sport as they have the right combination of weight and strength. Anything over 6K is very dense and too heavy for sports equipment. Again, this isn’t a common line of questioning from the consumer but may come up. Carbon fibres are a straight-line material and provide stiffness in a single direction. To provide stiffness in multiple directions the fibre can be woven into a multi-directional sheet (seen as an obvious weave in the sticks surface) or single direction sheets can be layered over each other to create the multi-directional stiffness. 40% of the weight of a composite stick comes from the resin within it. So, a stick can’t be 100% carbon. However, it can be claimed that 100% of the composite materials in a stick are carbon. Mercian do not believe this gives optimal strength and so always combine the carbon overlay with a composite micro-skeleton made from fibreglass, Kevlar (aramid) and basalt. Carbon is stiff but brittle. The stiffness means that the energy created by the player when striking the ball – hit / slap – transfers to the ball and is not absorbed by the stick. Maximum energy transfer allowed by the FIH is 98%. But this stiffness means that the stick will not absorb energy on trapping / receiving so needs soft hands! The brittleness of carbon means that if the fibres are broken (stick tackle / post impact) they will crack, and the stick can or will fail. This is not a manufacturing fault. Other materials can be used in conjunction with carbon to get a positive performance outcome. Special chemicals are used with paints and lacquers to get them to bend to the top layer of carbon and create high-quality graphics. 

 

QUAD CARBON SLEEVE – Q.C.S  

Mercian’s QCS technology is based around enhancing the already common braided technology. Braiding as a dictionary definition means: ‘to interweave several strands of (hair, thread, etc); to plait’ By weaving carbon strands together you create a carbon sleeve, this provides 360-degree, seamless strength within a stick. Using such a full-length sleeve creates a softer feel, a lighter weight, but creates exceptional energy transfer and therefore power. Mercian then overlay the full-length sleeve with 3 more smaller sleeves to offer enhanced protection at the three identified stress points – base of handle, backhand hitting zone and stick ‘heel’. By utilising these four sleeves we create a unique structure for delivery of maximum power and durability. 

 

TCDK (tungsten carbide diffused Kevlar) – CK95 – 5% KEVLAR

Kevlar is the registered trademark for a para-aramid synthetic fibre, also known simply as ARAMID in other sticks. This high-strength material was first commercially used in the early 1970s as a replacement for steel in racing tires. Typically, it is spun into ropes or fabric sheets that can be used as such or as an ingredient in composite material components. Currently, Kevlar has many applications, including bulletproof vests, because of its high tensile strength-to-weight ratio; by this measure it is 5 times stronger than steel. Tungsten carbide (chemical formula WC) is a chemical compound (specifically, a carbide) containing equal parts of tungsten and carbon atoms. In its most basic form, tungsten carbide is a fine grey powder, Tungsten carbide is approximately twice as strong as steel, For TCDK the fine powder version of WC is diffused through a sheet of Kevlar in the manufacturing process further enhancing the natural characteristics of the material and increasing both its strength and more specifically its durability. 

 

PEIZO-ELECTRIC FIBRES 

Piezo-electric fibres are included in all the Evolution sticks they are used to ‘harvest’ the vibrations created in these super-stiff sticks and turn them into heat. The result of this is efficient vibration dampening. It's achieved because the molecules within the material are active, the force applied to them (vibrations) causes the fibres to bend and emit a small electric charge that is dispelled as heat. The technology originally used by Head in tennis, applied those forces through an electrode to counter-act the vibrations (this isn’t present in hockey sticks!)

 

NANO-POLYMER RESIN 

The particles within our resins have been altered at a nano-size level (10 x below microscopic) Instead of using nano-carbon particles, the use of rubberized polymers creates a more flexible but stronger bond between the composite layers. This increases the stiffness of the sticks and reduces de-lamination. 

  • The Elite CK95 is an extreme low bow, high carbon stick. It suits aspirational intermediate players or elite athletes*.
  • The extreme low bow helps with drag flicking.
  • It is suitable for a (advanced*) defensive player who enjoys running with the ball, eliminating opponents (including 3D skills), playing overhead passes and disguised slaps.
  • It is suitable for a (advanced*) midfield player who enjoys running with the ball, executing 3D skills and playing 'pop' passes with various degrees of lift.
  • It is suitable for a (advanced*) forward who likes to eliminate defenders (including 3D skills), fire powerful shots at goal with an easy ability to lift the ball and carry the ball at speed because of its' higher balance point and lighter pick up.

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