The putters feature a 3D printed nylon lattice cartridge created using HP’s advanced Multi-Jet fusion printing technology. The 3D printed lattice structure optimizes the weight distribution within the putter chassis to deliver a high MOI design for enhanced stability and roll performance.
The KING Agera
Features an oversize mallet shape and an MOI over 7600, making it one of the most stable putters on the market today. The design features a 3D printed nylon cartridge, 261g steel chassis, 27g forged aluminum crown, and extreme tungsten weighting. The intricate 3D printed nylon lattice cartridge removes unnecessary mass from the center and allows it to be redistributed to the perimeter in the form of 53g of combined tungsten to increase MOI.
Like the other putters in the KING 3D Printed Series, the Agera also features an aluminum face insert with SIK’s DLT with four descending lofts (4°, 3°, 2°, 1°) to provide optimal launch and roll consistency for all putting strokes. The KING Agera putter is equipped with a lightweight polyurethane Lamkin Sinkfit CONNECT Grip, and is available in right and left hand in 34”, 35” and 37.5” (ONE Length) stock length (other lengths available through custom).
An oversize blade shape combines a 3D printed nylon lattice insert, a 286g steel frame, a 21g aluminum cap, and 30g of tungsten in the heel and toe to provide the highest MOI for maximum stability.
3D PRINTED NYLON INSERT
An intricate 3D printed nylon lattice structure optimizes the weight distribution within the putter head to create the highest MOI possible for maximum stability.
SIK ALUMINUM FACE INSERT
An aluminum face insert features SIK Golf’s proprietary Descending Loft Technology (DLT), which utilizes 4 descending lofts to ensure the most consistent and accurate roll for every style of putting stroke.
COBRA CONNECT GRIP
Each putter in the KING 3D Printed Series is equipped with a COBRA CONNECT™ grip Powered by Arccos Caddie, the award-winning smart golf system that helps players of all skill levels make smarter, data-driven decisions.