How COBRA is puttering around with 3D printing to push forward the club production process

COBRA We may earn revenue from the products available on this page and participate in affiliate programs. Learn more › Sign Up For Goods 🛍️ Product news, reviews, and must-have deals. Terms of Service and Privacy Policy. Walk onto the green with a COBRA LIMIT3D flat stick in hand and, unless the person next to you reads putts like they’ve got access to the tournament setup sheet, you could well get a double-take. There are stranger silhouettes you can crouch over waiting for the line to whisper its secrets, but the 3D-printed COBRA PISTA blade and ENZO mallet putters have enough stealth-fighter energy to pull some attention away from trying to outthink a slope. Released in early 2025, these boutique clubs have a dark finish and disciplined lines, so they come across less science project and more project that happens to be made with science. But they don’t really reveal all their secrets outside of the lab, because that’s where you can truly see how these heads are not simply CNC milled from one-piece blocks or cast in molds. There’s less carving, less compromise, no chunky concessions. Just tight tolerances and precise internal dimensionality that you can’t achieve with a bit. COBRA See It They’re born layer-by-layer from powdered metal fused in printers, and that shift has allowed COBRA’s engineers to play a sophisticated shell game with mass, intelligently calibrate forgiveness, and shape sound without resorting to weight-saving cavities or bloated sole plating. They’re hiding aerospace-grade secrets inside the form and feel of forged offerings that golfers trust. And that, in turn, informed the 3DP MB and 3DP X irons and trickled down to recently released, more affordable putters in the 3DP TOUR family . As Ryan Roach, director of innovation, explains via phone, 3D printing isn’t just a case of weird for weirdness’s sake, but rather structures that better suit each putter’s job. “The advantage Cobra has by using 3D printing is that we can create designs that generate the performance and forgiveness necessary without having to compromise in areas of appearance, shape, and impact feel. “The reason we’re doing it is not just because we can, but because it actually improves the product.” COBRA splits the PISTA and ENZO between manufacturing methods because the designs ask for different physics enablers. “We are agnostic to printing method,” says Roach, “considering each method’s strengths and weaknesses when evaluating which works best for a particular design.” The blades are built with Direct Metal Laser Sintering [DMLS]—fusing thousands of layers of corrosion-resistant, industrially mature 316L stainless steel alloy powder into intricate, closed-off latticework inside a compact head, with unfused particles shaken out of small ports like the last grains from a stubborn spice jar. You can’t mill a weight pocket behind a face without thickening the entire design, so this lightweight but still internal scaffolding lets discretionary grams be pushed