Issues With Oversized Putter Grips
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Muffled Essential Feedback
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Moisture Control
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Rapid Surface Decay
Most oversized grips use a soft polyurethane material wrapped around a soft foam core.
While this keeps weight down, it also absorbs vibration, which dulls the natural feedback players rely on for distance control.
Polyurethane wears rapidly and can absorb moisture and become slick in rain, dew, or hand perspiration.
Soft outer layers smear, fray, and degrade faster than most players expect.
A New Path Forward
We saw an opportunity, one that traditional design, manufacturing, and materials simply couldn't reach.
- What if putter grips didn't rely on foam for ideal weight?
- What if stroke feedback could be engineered, not sacrificed?
- What if durability wasn't an afterthought?
This is where additive manufacturing unlocks entirely new possibilities.
Why 3D Printing Changes the Game
3D printing isn't the innovation, what it enables is.
- Engineered Textures
- Infinite Size and Shapes
- Material Intelligence
- Purpose-Built Durability
Additive manufacturing removes the constraints that have shaped putter grips for decades, opening the door to entirely new performance characteristics.
Imagine - Create - Perform
For years, golfers have accepted the trade-offs from larger putter grip material construction.
At Trilogy, we’re rethinking the putter grip from the inside out.
By combining advanced polymers, structural engineering, and additive manufacturing, we’re creating shapes, textures, and performance benefits never before available.
And it's just the beginning...