Hot Launch E523 Fairway
Hot Launch E523 Fairway
Custom is no longer available for this product
The Extreme Game Improvement Hot Launch E523 Fairway Metal is designed to produce higher-flying shots with extreme accuracy that will transform your fairways into scoring clubs.
This 17-4 stainless-steel fairway features the patented Houdini Sole in conjunction with a super-shallow face, a slice-fighting offset design and heel weighting for added draw bias.
Houdini Sole Technology - The Houdini Sole includes an area of mass concentrated on the trailing edge of the sole of the clubhead, as well as a curved leading edge the face. This unique and patented design allows engineers to precisely position weight in the head for an ultra-low and deep CG, optimizing launch conditions and greatly improving stability.
Heel Weighted Slice-Fighting Offset Design - Offset designs are combined with a heel sole weight to provide the ultimate in slice fighting technology. The offset design of the E523 Fairway added with a heel sole weight allows the face to square up at impact for straighter ball flight.
Diamond Face VFT - Diamond Face Variable Face Thickness technology is a breakthrough in face technology that features 39 different thick and thin diamond shapes or “mini-trampolines” behind the face. Diamond Face VFT produces a hotter face with faster ball speeds and better performance on off-center hits, as well as reduced spin.
Super Shallow Face Design - The super-shallow Cup Face designs in the Hot Launch E metals are designed for extreme playability and high-flying launch characteristics. These shallow faces produce higher launch angles and extreme ease of launch with extreme forgiveness.
Ultra-Light Premium Shafts - The E523 Fairway comes stock with an ultra-light UST Mamiya HL-SST graphite shaft that ranges from 49 to 65 grams depending on the flex. The UST Mamiya HL-SST shafts feature Stabilized Shaft Tech, a softer tip, and a mid-range flex. Stabilized Shaft Tech is an added cross weave that reduces ovaling for better stability during the loading and unloading of the shaft.