The 3D Printed putter you need to try

There’s innovation, and then there’s Cobra innovation. 

During a recent visit to Cobra HQ in Carlsbad, CA, I went through a full putter fitting and walked away with something that felt more like a glimpse into the future than a new club: the Cobra Limit3D Enzo. Built using fully 3D-printed 316L stainless steel and designed with an internal lattice structure to maximize stability, this putter offers a level of consistency, sound, and feel that’s hard to ignore — especially when the numbers start to back it up.  

What makes the Limit3D line different? 

The Limit3D putter family currently includes four fully 3D-printed head shapes: 

Enzo – Face-balanced mallet with a single-bend shaft for a straight-back, straight-through stroke 

Enzo-30 – Short slant neck mallet with 30° of toe hang for players with a slight arc 

Pista-45 – Plumber’s neck blade with 45° of toe hang for a moderate arc 

Pista-60 – Flow neck blade with 60° of toe hang for a strong arc 

All four are printed from 316L stainless steel, and each features an internal lattice structure that redistributes mass to the perimeter. The result? Higher MOI, more forgiveness, and a feel that rivals traditional one-piece milled putters, with none of the design limitations. 

My fitting at Cobra HQ 

At Cobra’s HQ fitting studio, I was fit for a 34-inch Enzo using SAM PuttLab, a high-tech system that tracks dozens of stroke metrics in real time. From face angle to timing to consistency, it captures everything that matters and makes it easy to see what a good fit can do. 

Cobra LIMIT3D Custom Irons

The LIMIT3D irons utilize 3D printing technology to push beyond the capabilities of traditional casting and forging to develop a compact player’s blade profile that has a soft forged feel and the forgiveness of an oversized, game-improvement iron.  
The World’s First 3D Printed Iron
Using nTop’s advanced topology optimization software, COBRA took a muscle-back blade shape and added an internal lattice structure that allowed us to reposition 33% of the total clubhead weight. Redistributing this saved weight allowed us to create a smaller profile iron with higher MOI (more forgiveness) and a lower CG (higher Launch) to make this the most forgiving blade you will ever hit. 
Fine-Tuned Feel
The 3D-printed internal lattice allows us to fine-tune the clubhead’s frequency at impact to maintain a forged feel and appealing sound.

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The stock Enzo already felt great, crisp sound, clean roll, and a very stable head through impact. But the real gains came when we started tweaking the head weight. Once we dialed in the weight to match my feel and tempo, every metric improved. The face was more consistent, rotation was better timed, and dispersion tightened up. Not to mention, my aim improved to 96% from 89% at the stock weight. 

This wasn’t about chasing perfection. It was about watching performance line up with feel, and the data telling the story that the changes were having a positive impact on performance. 

The real power of 3D printing 

What makes the Limit3D putters special isn’t just the cool factor, it’s the performance. 3D printing allows Cobra to create shapes and internal structures that are impossible to mill or cast, and that gives them the freedom to chase performance without compromise. 

The lattice structure inside the Enzo isn’t just for looks. It removes excess weight from the center and pushes it to the edges, boosting forgiveness while maintaining a responsive feel. And because the putter is fully printed, there’s no glue, no inserts, and no artificial tuning. Just smart engineering from the inside out. 

Something different 

With everyone chasing the Zero Torque, Cobra’s Limit3D putters are one of the most compelling new entries in the putter space this year. Not because they’re trendy, but because they flat-out perform. Whether you’re a mallet player looking for more stability or a blade fan who wants forgiveness without sacrificing feel, there’s a model in this lineup worth testing. 

If you’re even remotely serious about your putting, go get fit. Find the model that matches your stroke, experiment with head weights, and let the tech speak for itself. 

Cobra is onto something big here. With Tour players already trusting 3D-printed irons and a growing family of putters hitting retail, it’s clear they’re not just testing the waters. They’re building the future, one printed part at a time. 

Cobra’s not done yet 

The Limit3D putter line is just one piece of the puzzle. If you’ve been paying attention, you know Cobra’s been exploring 3D printing in other parts of the bag, too. Most notably in the 3D-printed irons played by Max Homa and Gary Woodland. That same additive manufacturing technology that’s reshaping putters, is already being proven on Tour in full swing clubs. 

And make no mistake: this is just the beginning. Cobra has hinted that more Limit3D models are already in the works, with potential for expanded shapes, new models, custom weight builds, and new alignment designs to hit retail in the near future. 

Cobra isn’t experimenting. They’re investing. 3D printing is becoming a core part of how they design and build golf clubs, and what we’re seeing now is just the tip of the iceberg. 

Ready to overhaul your bag? Book your fitting at True Spec Golf.