BRAND ORIGIN
Future Flex Golf Shafts
The UK started developing carbon fiber technology earlier than the US and Japan, initially for use in aerospace technology. They have a great advantage in experiences in the structure, design, and how to make carbon fiber more energy efficient.
In recent years, many new brands have emerged in many countries other than Japan. Automatic detection and more tolerant elastic technology for swing speed are also becoming popular. We believe this is a correct direction to design a shaft. There will be many different swing speeds generated on the same person in different seasons, different courses, and different strategies. Therefore, if the old-fashioned fitting thinking of selecting specifications by measuring and customizing is used, it will lead to the fact that each person may need many different specs of shafts to face different climates, different holes, different physical conditions, and different swings. And this is not a good thing for golfers and may even disrupt their swing rhythm.
Therefore, the automatic detection technology type of shaft will be the most suitable shaft for golfers to use in the future.
However, all shafts with automatic detection technology have some common issuesïŒ
Too high trajectoryăDurabilityăMaterialăDifficult to Control Ball FlightăEnergy DispersionăCost constraints.
The inception of Future Flex
Due to the limitations of current automatic detection technology for golf club shafts, our brand, Future Flex, was created to address these issues and provide a better experience for golfers.Founded in the UK, with a design team consisting of professionals from around the world, dedicated to developing cross-generational technology for golf shafts.
Our shafts not only require advanced automatic detection technology but also possess the following outstanding qualities:
- Durability
- More concentrated and faster energy transmission
- Exceptional ball flight strength
- Excellent ball control ability
- The use of the best possible materials regardless of cost
With these ideal qualities in mind, we spent over two years on design and development, and finally, Future Flex was born! Our innovative lineup includes:
You Could Described They Are The Shafts From The Future
Common Issues v.s Our Optimization
Common Issues 1
TOO HIGH TRAJECTORY :
Due to the elasticity of the shaft, it is difficult to apply force during the downswing process, resulting in a generally high ball trajectory.
Our Optimization 1
STABLE AND POWERFUL TRAJECTORY :
The shaft is designed to create a stable and powerful ball trajectory based on the playerâs swing speed and force.
Common Issues 2
DURABILITY :
Since the shaft is designed with very soft elasticity, it is prone to elasticity fatigue, resulting in durability issues. Even when paired with a heavier clubhead, it may cause directional instability.
Our Optimization 2
DURABILITY MEETS PRECISION :
The product adapts the appropriate flexibility and strength for each playerâs individual swing, rather than relying solely on the bending and rebound of the shaft itself. This reduces unnecessary forces and counterforces, enhancing both trajectory stability and product durability.
Common Issues 3
DIFFICULT TO CONTROL BALL FLIGHT :
For advanced players who want to hit different high, low, draw, and fade ball trajectories, it is difficult to achieve precise control with this type of shaft. The main reason is still the slow energy transfer issue.
Our Optimization 3
EXCEPTIONAL BALL CONTROL SENSATION :
Weâve addressed the issue of energy transfer between the golfer and the shaft. Advanced players using our products will discover the ability to freely control various trajectories, including high, low, left bend, and right bend.
Common Issues 4
COST CONSTRAINTS :
As mentioned above, if this type of shaft with automatic detection wants to be made with medium or high-tonnage carbon, the design, development, and material costs will be very high, and the selling price will be extremely expensive.
Our Optimization 4
CONTROLLABLE COSTS :
Our product technology features automatic detection capabilities, and because it is exclusively developed and independently produced, costs can be controlled within an optimal range.
Common Issues 5
ENERGY TRANSFER AND DISCRETE :
The acceleration of this type of shaft usually comes from the elasticity rebound, but the force (energy) applied to the shaft during the downswing process gradually diminishes. Therefore, only the whipping action can effectively increase the swing speed. If force is applied during the downswing process, the energy transfer may be lost due to dispersion, and the shaftâs softness may cause directional instability.
Our Optimization 5
EFFICIENT TRANSFER OF ENERGY :
Due to the productâs built-in automatic detection feature, it doesnât solely rely on the flexibility of the shaft to generate hitting force. The automatic detection adapts to the playerâs swing speed and strength, optimizing the transfer of force to minimize loss during the transmission of power.
Common Issues 6
MATERIAL LIMITATIONS :
Since soft elasticity is used to increase rebound, the materials used in this type of shaft cannot use high-tonnage carbon, which is also one of the important reasons for the previous shortcomings.
Our Optimization 6
COMBINATION OF MATERIALS AND TECHNOLOGY :
Our product relies on the synergy of automatic detection technology and materials, reducing the various drawbacks associated with relying solely on shaft flexibility to produce hitting effects.