JetSetter x TULALA x G-TEC
The first special JetSetter we commissioned G-TEC to produce is the JetSetter 60C Magnus.
The JetSetter 60C is a 4-piece bait finesse rod for fishing in the "world". It excels at using lightweight spoons and spinners, as well as pencil baits and minnows, which require fast and precise movements, and has produced many fans and variations. With the cooperation of G-TEC, this special model will deliver amazing performance.
The 60C's flexibility, bending to firmly place the casting moment and lure weight, and while maintaining the concept of "soft overcomes hard" in the interaction after the hit, the M40X carbon increases the sensitivity transmission. It is flexible and tenacious, but responds quickly to the angler's operations, making it a model with improved motor skills.
Magnus
X3G x HDML x COS x OMT
Uses Toray's carbon prepreg, the latest materials T1100G and M40X, achieving 30 percent more tensile strength than conventional models. The Magnus manufacturing method is a technology that makes the most of these materials. The high-elasticity 40t carbon M40X is given a torque and resilience that sticks the more it is bent. It completely covers the weakness of high-elasticity carbon, its brittleness, and succeeds in increasing its advantages of lightness, fast reaction speed, and high sensitivity. The Jet Setter, constructed using the Magnus manufacturing method, further emphasizes the concept of flexibility, giving anglers the feeling that "it feels the same, but the movement performance is one step above the rest."
[X3G] The main pillar that supports the Magnus manufacturing method is "Xross 3 Generation." "X3G" mainly uses cutting-edge materials in terms of materials, which greatly affect the performance of the rod. The material used in the Magnus manufacturing method is 100% domestic carbon. Toray's third-generation cutting-edge materials "T1100G" and "M40X" are the main materials for MAGNUS, but in response to the complex diversification of fishing styles, composite materials such as boron, titanium, 4-axis, bias carbon, and aramid are composited for each purpose and Xrossed (crossed) to always lead to the optimal answer.
The resin of M40X is not the conventional general-purpose type, but a resin that uses the cutting-edge nano technology "nano alloy." It boasts stable quality, that is, high strength. High elasticity M40X carbon is clearly superior in sensitivity transmission compared to conventional low elasticity and medium elasticity. When observing the cross section of Magnus Blanks, when the rod is bent during casting or fighting, it is deformed from a perfect circle to an ellipse, and the speed at which it returns from an ellipse to a perfect circle is an unusually fast feature of the MAGNUS manufacturing method. With its outstanding shape recovery, it has achieved a supple, spring-like return and tenacity even with an unprecedented "straight" tension. Therefore, even with a slow taper, it suppresses "boing" and "fluttering", reduces unnecessary vibrations transmitted to the hand, and contributes to improved sensitivity.
[HDML] HDML structure. The innermost layer of the blank is made of high elasticity carbon, and the outermost layer is made of medium elasticity and low elasticity carbon, which are optimal layers proven by detailed experiments and data. Even in ultra-thin tubular tips with a tip diameter of less than φ1.2 mm, which requires advanced technology for carbon wrapping, 100% carbon is used in all directions, including vertical, horizontal, and bias. Therefore, carbon is superior to glass in all respects in terms of strength, rigidity, and lightness compared to conventional glass and carbon hybrids, dramatically increasing strength and achieving lightness at a high level.
[COS] Conventional design methods generally involve cutting prepregs with an emphasis on cost reduction and mass production efficiency. In MAGNUS blanks, the method used to create stronger and straighter blanks is COS (Cutting Optimized for Straightness). MAGNUS blanks do not fear cutting loss of carbon material, and adopt a cutting pattern with an optimal angle called tacking that matches the mandrel taper used for each model. The vertical carbon fibers are arranged more parallel to the rod axis, preventing the blank from twisting or bending, and are individually designed with CP to obtain overwhelming breaking strength.
[OMT] Conventional design methods limit the materials that can be used, such as carbon and glass. In conventional rod design, the mandrel taper design was the center of rod design, and it was said that the mandrel taper determines the performance, taper, and hardness of the fishing rod. With MAGNUS blanks, you can freely choose from tens of thousands of carbon materials, and you do not necessarily have to rely only on the mandrel taper, but you can freely design blanks with the "optimal action," "hardness," and "taper" by combining materials and designing the structure.
"Overall power"
- A mysterious feeling that is sticky despite its high elasticity
- Just by storing the rod, "fish come closer." The power is so great that you can feel the reserve power still
- Because it is light, it looks like it does not have much power at first glance, but the torque and bulk are amazing
- It does not shake. Casting feels good. The casting distance is increased dramatically. The lure can be cast with less force.
・You can feel the rod's flex more.
・Stable casting. High accuracy. Can be thrown cleanly.
・The lure can be cast farther with less force.