Cobra 3DP MB Irons RH
3D Printed Technology With More Forgiveness
The Cobra 3DP MB irons utilise 3D printing technology to combine the look and feel of a traditional forged muscle back with the forgiveness of a cavity back iron. The MB has captivated Tour players by checking all the boxes and exceeding expectations with its exceptional stability and feel.
Printed from 316 stainless steel, the 3DP MB features a thinner topline with enhanced offset. This model is engineered with the centre of gravity positioned perfectly centre and lower to deliver a higher launch and the internal 3D printed lattice structure increase MOI for stability.
3D printing provides significant advantages over traditional casting and forging methods, unlocking more design freedom and significant performance improvements. 3D printing has unlocked new design possibilities, enabling COBRA engineers to create a compact blade shape with the mass properties of a game improvement iron (higher MOI for stability, and lower CG for high launch) without sacrificing the looks and soft feel that better players demand.
Using advanced topology optimization software by nTop, COBRA took a blade shape and added internal latticing that redistributed 33% of the total club weight to produce the highest MOI possible in a small blade profile.
The 3D printed internal lattice structure optimizes weight savings and provides the stiffness and strength to support the face. The design also functions in fine-tuning the acoustics of each iron to produce the most appealing impact sound and feel.
The discretionary weight savings from the 3D printed lattice allows up 55g of tungsten to be positioned in the toe and hosel resulting in the perfect blend of a compact blade shape with a low CG and high MOI that mirrors a game improvement iron.
Cobra 3DP MB Irons RH
3D Printed Technology With More Forgiveness
The Cobra 3DP MB irons utilise 3D printing technology to combine the look and feel of a traditional forged muscle back with the forgiveness of a cavity back iron. The MB has captivated Tour players by checking all the boxes and exceeding expectations with its exceptional stability and feel.
Printed from 316 stainless steel, the 3DP MB features a thinner topline with enhanced offset. This model is engineered with the centre of gravity positioned perfectly centre and lower to deliver a higher launch and the internal 3D printed lattice structure increase MOI for stability.
3D printing provides significant advantages over traditional casting and forging methods, unlocking more design freedom and significant performance improvements. 3D printing has unlocked new design possibilities, enabling COBRA engineers to create a compact blade shape with the mass properties of a game improvement iron (higher MOI for stability, and lower CG for high launch) without sacrificing the looks and soft feel that better players demand.
Using advanced topology optimization software by nTop, COBRA took a blade shape and added internal latticing that redistributed 33% of the total club weight to produce the highest MOI possible in a small blade profile.
The 3D printed internal lattice structure optimizes weight savings and provides the stiffness and strength to support the face. The design also functions in fine-tuning the acoustics of each iron to produce the most appealing impact sound and feel.
The discretionary weight savings from the 3D printed lattice allows up 55g of tungsten to be positioned in the toe and hosel resulting in the perfect blend of a compact blade shape with a low CG and high MOI that mirrors a game improvement iron.
Cobra 3DP MB Irons RH
3D Printed Technology With More Forgiveness
3D Printed Steel Construction:
Printed from 316 stainless steel, the 3DP MB delivers thinner topline with enhanced offset. The MB model combines the looks and feel of a traditional forged muscle back with the forgiveness of a cavity back iron.
Forgiving Muscle Back Blade Shape:
A slightly revised shape from the KING MB inspired by feedback from PGA Tour player Max Homa, the MB features a thinned topline and enhanced offset. The internal 3D printed lattice and heel, toe and hosel tungsten increases MOI for stability, and positions the CG perfectly centred and lower to promote higher launch.
Internal Lattice Structure:
COBRA took a muscle-back blade shape and transformed the inside of the blade into a complex internal lattice structure to reduce the weight of the club by 33%. That discretionary weight was repositioned to optimize feel, CG position, and MOI.
Extreme Forgiveness Meets Soft Feel:
The 3D printed internal lattice structure optimizes weight savings and provides the stiffness and strength to support the face. The design also functions in fine-tuning the acoustics of each iron to produce the most appealing impact sound and feel.
Tungsten Weighting:
The discretionary weight savings from the 3D printed lattice allows up 55g of tungsten to be positioned in the toe and hosel resulting in the perfect blend of a compact blade shape with a low CG and high MOI that mirrors a game improvement iron.
Cobra 3DP MB Irons RH
3D Printed Technology With More Forgiveness
Iron Back: Muscle Back
Iron Size: Midsize
Iron Face: 3D Printed
Iron Construction: 3D Printed
Handicap: Low-Mid
| CLUB |
LOFT |
LIE ANGLE |
OFFSET |
LENGTH |
RH/LH |
STEEL FLEX/SHAFT |
|---|---|---|---|---|---|---|
| 4 | 24.0° | 60.5° | 3.0 mm | 38.75" | RH/LH* | S - KBS $-TAPER |
| 5 | 27.0° | 61.0° | 2.8 mm | 38.25" | RH/LH* | S - KBS $-TAPER |
| 6 | 30.0° | 61.5° | 2.5 mm | 37.75" | RH/LH* | S - KBS $-TAPER |
| 7 | 34.0° | 62.0° | 2.2 mm | 37.25" | RH/LH* | S - KBS $-TAPER |
| 8 | 38.0° | 62.5° | 1.9 mm | 36.75" | RH/LH* | S - KBS $-TAPER |
| 9 | 42.0° | 63.0° | 1.6 mm | 36.25" | RH/LH* | S - KBS $-TAPER |
| PW | 46.0° | 63.5° | 1.6 mm | 36.00" | RH/LH* | S - KBS $-TAPER |
| GW | 50.0° | 63.5° | 1.6 mm | 35.75" | RH/LH* | S - KBS $-TAPER |
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