Product Code:
pxg-battle-ready-spitfire-plumbers-neck-putters
This uniquely designed putter is a mix between a blade and a fang design, something a little different from the normal shapes out there. Named after the world-famous Spitfire plane of World War II, this blade come fang putter is 100% milled and ready for you to purchase here at Golfsupport.com The material used is a perfect blend of Aerospace-grade aluminium body and high-density Tungsten in the wings to optimise stability and balance.
The traditional plumber's neck hosel will give the Spitfire a mid-toe hang. A highly versatile neck that will suit both straight and slight arc putting strokes. Ideal for players with a mild amount of face rotation. With the most offset of all three types of hosel, the plumber's neck promotes hitting the ball later in the stroke, giving a nice upward stroke on the ball.
The companies proprietary Pyramid Face Pattern gives outstanding results from absolutely anywhere on the face. PXG's Pyramid Face technology gives outstanding roll with each and every putt. Launch angle, spin rates and skid distance are all perfectly optimised from the impressive looking Pyramid Face Pattern. Tour player feedback, together with research and development has given a perfectly optimised groove depth for feel and initial velocity across the face.
The underside of the putter includes a pair of embedded Darkness Insignia skulls with the number 26 printed inside. This is a nod to PXG owner Bob Parsons, acknowledging his service to the 26th Marine Corps Regiment in combat during the Vietnam War.
If you like unique, this Spitfire putter is for you. Optimised shaping for great performance. We like it!
Stable and nicely balanced.Plumber's neck hosel.Suited to players with a slight rotation.Unique design.Blade come fang styling.Aerospace-grade aluminium body.High-density Tungsten wings.Pyramid Face Pattern Technology.Single flange sightline.Golf ball width cavity.Unmatched sound & feel.2 Adjustable sole weights.PXG weight kit sold separately.Extremely high moment of inertia.