#SHBAZ2W (Wide Body)
Description: Yonex lightest shoe at 250g (26 cm) for faster footwork with power and cushioning.
Colour: Gray Yellow
Upper: Synthetic Fiber
Midsole: Synthetic Resin
Outsole: Rubber
Material: POWER CUSHION+, POWER CUSHION, Double Raschel Mesh, Durable Skin Light, Feather Bounce Foam
Product Technology
POWER CUSHION+The YONEX Power Cushion absorbs shock then reverses the impact energy for smooth transfer into the next movement.
Compared with urethane, the YONEX Power Cushion construction provides 3 times more shock absorbing power. When dropped from 7m above a Power Cushion sheet, an egg will bounce back 4m without damage.
DURABLE SKIN LIGHT
Combining rubber-like flexibility with the stiffness of hard plastic, the polyurethane-based Durable Skin Light lets you play light on your feet while maintaining a robust fit.
DOUBLE RASCHEL MESH
Double Raschel Mesh is an ultra fine mesh that is extremely lightweight and durable. It provides eight times more air-exchange for releasing moisture than ordinary mesh fabric.
3D POWER GRAPHITE
3D Power Carbon plate is inserted in the midsole, reducing weight and reinforcing your stability when landing.
TOE ASSIST SHAPE
A toe-centric design that cuts down on pressure in the big toe, as well as offering improved support at the mid-foot and heel for a stable fit. Power loss is reduced, allowing for swift footwork.
SYNCHRO-FIT INSOLE
YONEX Synchro-Fit Insole construction creates a secure contact between foot and shoe, reducing energy wastage through an improved fit.
RADIAL BLADE SOLE
Designed for confidence in directional change. A new sole pattern increasing traction in vertical, horizontal and diagonal movements
ROUND SOLE
Max Energy
The YONEX Round Sole is designed to provide all-around support for quick and smooth footwork. The Round Sole ensures smooth movements and transfer of maximum energy.
FEATHER LIGHT X
Approximately 30%* lighter than general EVA material, and approximately 12%* lighter than the lightweight material Hyper Feather Light *According to Yonex research