EXPLOSIVE SPEED. SUPERIOR FIT.
The Nike Mercurial Superfly V Dynamic Fit SG-PRO Anti-Clog Soft-Ground Soccer Cleat provides a perfect fit, exceptional ball touch and explosive traction for ultimate speed on the field.
An innovative material activates in moist conditions to keep mud from accumulating on the cleats and plate, maintaining lightweight cleats and optimal traction.
Innovative Flyknit wraps your foot fully for a second-skin fit. It combines with Flywire cables that integrate with the laces for superior lockdown.
DYNAMIC FIT COLLAR
The Dynamic Fit collar fits anatomically around your ankle for a sock-like sensation.
NIKE GRIP SYSTEM
The internal Nike Grip System helps keep your foot from slipping inside the boot.
3D SPEED PLATE
The re-engineered, ultralight 3D Speed Plate fits your foot naturally for explosive speed. Precision-placed studs enable quick starts and stops.
All Conditions Control (ACC) technology gives you precision control in wet and dry conditions.
A thin overlay binds plastic film to lightweight mesh to deliver locked-down lateral stability.
- Tongueless design helps reduce distractions
- Compressed nylon plate is contoured to your foot's shape
- Updated cleat configuration for the ideal balance of traction, torque and comfort
- Soft-ground (SG) cleats for use on wet and muddy fields requiring maximum traction
- SG-PRO includes detachable aluminum cleats: 11/13mm (attached) and 13/15mm (in box)
- Shown: University Red/Bright Crimson/Black
- Style: 889286-616
Nike Flyknit technology was inspired by feedback from runners seeking a shoe with the snug (and virtually unnoticed) fit of a sock. Nike embarked on a four-year mission with teams of programmers, engineers and designers to create the technology needed to make the knit upper with static properties for structure and durability. Then the precise placement of support, flexibility and breathability—all in one layer—was refined. The result is a featherweight, formfitting and virtually seamless upper. This unprecedented precision maximizes performance while reducing material waste by an average of 60% compared to traditional cut and sew, saving millions of pounds of material from reaching landfills.