Callaway Women's XR Fairway Wood
Women's XR Fairway Woods
Unmatched Distance from Everywhere
Callaway started from scratch with the Women's XR Fairway Wood, changing everything from the Face Cup to the shape to make golfers even longer than they already are. It’s led by a next generation Forged Hyper Speed Face Cup that’s up to 36% thinner, much lighter and has a bigger sweet spot to increase ball speeds across the face for greater distance and forgiveness that’s easy to hit.
More distance, lower spin and versatility are the highlights of adding a re-engineered Internal Standing Wave. And the completely redesigned shape provides a shallower face for increased forgiveness from the fairway.
Features
Higher Ball Speed And Forgiveness Across The Face
Callaway developed a lighter, thinner next generation Forged Hyper Speed Face Cup. It makes the face up to 36% thinner to increase ball speed. It’s not just speed, it’s forgiveness with a 16% larger sweet spot.
More Distance And Versatility For Any Shot A 20% lower CG, 200 rpm less spin and even more ball speed are what we get when we move the weight low and forward with our re-engineered Internal Standing Wave.
Completely Redesigned Head Shape You can see by the look of these clubs that they have flatter leading edges and a higher toe. The face height is shallower vs. X2 Hot for players who use these clubs mostly from the fairway.
Speed From Maximum Shaft Load The shaft is a key component to speed, that’s why we put in the new Project X LZ. It produces maximum shaft load during the downswing for greater energy transfer to the ball.
Specifications
- Higher Ball Speed and Forgiveness Across The Face: New Forged Hyper Speed Face Cup with a thinner face and 16% larger sweet spot
- More Distance and Versatility For Any Shot: Less spin and more speed from the Internal Standing Wave
- Redesigned Head Shape: Flatter leading edges, higher toe and shallower face height for shots off the fairway
- Speed From Maximum Shaft Load: Project X LZ produces maximum shaft load for greater energy transfer