GCM
S.S.P.
It is a well known fact within the golf industry that every golf shaft is
unique, each possessing its own individual variations in wall thickness,
straightness, and materials. These unavoidable manufacturing irregularities
create asymmetries in golf shafts that cannot be detected until after the shaft
has been manufactured - yet greatly affect the performance of the shaft as well
as the finished golf club. These irregularities in golf shafts actually cause
errant shots that are not the fault of the player.
Golf, Curl & More’s Symmetrical System Process
was designed to find the various golf shaft asymmetries responsible for causing
golf shaft instability and poor performance in golf clubs. The stated
purpose of such a process in most cases was to "neutralize" the
potential effect of any such irregularities with regard to the intended
performance of the shaft during the swing
Golf, Curl & More’s system is
used to detect variations in straightness, wall thickness, and materials that
are present in every golf shaft and defines the exact point where perfect
equilibrium is achieved. When a shaft is installed in its proper
axis orientation, various unwanted forces within the shaft are canceled
out and the finished club will be in its most stable position.
This is an area where the shaft is most resistant to adverse bending and
twisting during the swing and at impact.
At Golf, Curl & More, every shaft that is installed in any club head,
will go through our extensive symmetrical process, at no additional charge. You
can rest assured that your re-shafted or new club will be build to to-day’s
highest technological standards, so the only thing remaining is for you to hit
each and every shot perfect.
SYMMETRICAL
SHAFTING
Why
does it work?
All conventionally installed shafts flex and vibrate during the downswing and at contact. This causes flutter, wobble and toe-down and prevents consistent contact between the club and the ball. During the downswing loading of the shaft, the shaft stores energy as it flexes. However, the performance at impact of a symmetrically installed shaft differs from traditionally installed shafts since they will stabilize through the elimination of deformation and impart greater energy to the ball. Since the shaft stiffens according to load input, and does not oscillate, the shaft will resist deformation at impact to a much greater degree over a much broader range than a traditionally installed shaft. The symmetrically installed shaft kills flutter, wobble, and dynamic toe-down during the swing so that the head may be delivered at a proper position since materials in the shaft become much more difficult to deform and the shaft becomes stabilized, resisting out of phase behavior (oscillation) during the swing. These primary features work in concert to achieve a dynamic response no other shaft can provide. The results are longer shots with greater consistency than ever before imagined, and a more stable platform for propelling the ball, which effectively enlarges the sweet spot of a club head through stabilizing ball speed drop off, launch angle derivation, and side launch angles.
