- -20%
GRAVITY LIMBS BLACK STAR
Two wooden layers and high density carbon limbs. Wood helps getting a smooth draw and stability at full draw. The limb shape turns most part of the...
This limb is made with the same structure of the Vera limb except for the foam core. The foam core gives it higher stability and elasticity. This leads to an unequalled smoothness and a high dynamic elasticity that results in a better grouping. Materials: crosswoven carbon, uni-directional high modulus carbon, foam.
16 other products in the same category:
Two wooden layers and high density carbon limbs. Wood helps getting a smooth draw and stability at full draw. The limb shape turns most part of the...
When performance is pushed to the limit you always have a problem with durability. Extreme speed, high power, lightweight all these are features...
MXT-10 foam core limbs are smoother when drawing using state-of-the-art material, Graphene. Also, they were designed with a pattern developed with...
Good limbs with structure in foam and carbon. Fast, powerful and reliable. The limb was revised in structure and graphics and has now an incredible...
Delta F3 limbs made of wood and fibre. Excellent for starting out with a quality and very reliable product.
Nano-carbon technology, with foam core limbs, offers extreme stability and less vibration. The superior limb geometry creates increased eneergy and...
Affordable, robust and reliable with a wood and fiber soul. Perfect for anyone who wants to start archery.
Fiber wood limbs, with double wooden layer. Strong and reliable, it is a good option for archery beginners. Available in SH, MD and LG lengths...
Cost-effective limbs made of glass laminates surrounding a hard maple core. The limbs have been tested for straightness to insure there's no...
Nano carbon limbs with MCF (Multi Compressed Fiber) technology, which results in enhanced speed. These limbs have outer carbon laminates...
Designed to be accurate at low libra, the Axiom Alpha offers a comfortable feel in traction. Wood and fibre construction. ILF binding.