Long flight with high launch angle
A shallow back design offers lower CG for longer ball flight and higher launch angles
Shallow back design
Partial rib design make the crown's
Easy to get the ball in the air.
Multiple weight flow designs for each fairway wood loft
The weight location is different for each loft.
Provides greater accuracy and increased confidence.
Larger clubface design allows golfers to take aim at the target with greater confidence
A new VIZARD shaft was developed for Be ZEAL.
Our powerful technological development capabilities, which satisfy the needs of professional golfers, has been utilized to help amateur golfers achieve their full potential.
|EPT-tech Efficient Power Transmission Technology|
|Increased acceleration provided by "low kick point design"|
|Higher launch angle and optimized spin provided by our "total stiffness design"|
|Reduction in power loss on impact with Zxion®, a vibration damping material|
Single-piece design of head + shaft
|Wood :||Grip‐oriented design for longer carry distance, which is easily achieved through a higher trajectory and reduced spin rate.|
|Iron :||Reduction in loss of momentum during follow-through coupled with a special design to create shots with higher trajectories and increased spin rates, which lead to increased backspin.|
ZXION®, a vibration damping material, is used for the tip.
The reduced shock on impact diminishes loss of power on contact.
The reduced head shake helps achieve increased directional stability.
*ZXION® is the registered trademark of KB Seiren, Ltd.
This material is widely used in sports, including catgut for tennis rackets, aircraft, belt reinforcing materials, speaker cones, etc.
SPEC Be ZEAL 525
|Head material / Manufacturing process||SUS630 / Casting|
|Face material / Manufacturing process||High-strength custom steel / Rolled|
|Lie angle (deg.)||59.0||59.5||60.0|
|Head volume (cm3)||195||180||165|
Gross weight (g)
|VIZARD for Be ZEAL||R||DO・308||DO・312||DO・316|
Made in Japan
SHAFT VIZARD for Be ZEAL
|Gross weight (g)||R||48.0||47.5||47.0|
Data refers to the shaft only