|
DOLPHIN WEDGE (DW-123) |
loft angle |
46 | 48 | 50 | 52 | 54 | 56 | 58 | 60 | 64 |
lie angle |
63.0 |
63.5 |
Length (inches) |
35.25 |
35.0 |
Bounce angle (°) |
To |
-12 |
-11 |
-Ten |
-9 |
-8 |
-6 |
-Four |
-2 |
0 |
Center |
2.0 |
7.0 |
Heel |
0.0 |
2.0 |
Head material |
Mild steel S25C |
grip |
Golf Pride Tour Velvet Rubber No Backline |
Convert the energy of a small swing into maximum spin
Designed to reduce rigidity and allow control of spin amount and launch angle (same for short irons). The base is made thicker to maximize the amount of energy converted into spin even with a small swing. The deep layer of the shaft is made of highly elastic material. Focusing on the structure of spin balls, which are soft on the outside and hard on the inside, Applied to the lamination of the shaft. While strong materials are used inside, low-elasticity pitch carbon is used on the outside to reduce the overall rigidity.
|
RAUNE WEDGE w85 | WEDGE | WEDGE+ |
Weight (g) | 85 | 87 |
Torque (deg) | 2.5 |
Tip Shape | Tapered type Tip diameter 9.1mm/Taper length 35mm |
Butt diameter (mm) | WEDGE15.40/WEDGE+15.50 |
kick point | Medium tone |
Shaft length (mm) | 900 |
RAUNE WEDGE w100 | WEDGE | WEDGE+ |
Weight (g) | 100 | 101 |
Torque (deg) | 2.3 |
Tip Shape | Tapered type Tip diameter 9.1mm/Taper length 35mm |
Butt diameter (mm) | 15.50 |
kick point | Medium tone |
Shaft length (mm) | 900 |
RAUNE WEDGE w115 | WEDGE | WEDGE+ |
Weight (g) | 120 |
Torque (deg) | 1.8 |
Tip Shape | Tapered type Tip diameter 9.1mm/Taper length 35mm |
Butt diameter (mm) | 15.50 |
kick point | Medium tone |
Shaft length (mm) | 900 |
*85/100...Flex WEDGE is equivalent to R, WEDGE+ is equivalent to S *115...Flex WEDGE is equivalent to S, WEDGE+ is equivalent to X
*What is low-elasticity pitch-based carbon? There are two types of carbon: PAN-based carbon, which is made by carbonizing fibers, and pitch-based carbon, which is made by bundling carbon made from petroleum and other materials into fibers.
Pitch-based carbon transmits vibrations more mildly than PAN-based carbon, making it ideal for creating the soft feel required for irons.
PAN-based materials are traditionally used in woods to improve flex and bounce.