X
BUTORA Unisex Acro Tight Fit Climbing
BUTORA Unisex Acro Tight Fit Climbing
BUTORA Unisex Acro Tight Fit Climbing
BUTORA Unisex Acro Tight Fit Climbing
BUTORA Unisex Acro Tight Fit Climbing
BUTORA Unisex Acro Tight Fit Climbing
BUTORA Unisex Acro Tight Fit Climbing

BUTORA Unisex Acro Tight Fit Climbing Shoe, Blue, 7.5 Men/8.5 Women

Product ID : 33547348
4.6 out of 5 stars


Galleon Product ID 33547348
Shipping Weight 1.61 lbs
I think this is wrong?
Model ACRO-BL-TF-UNI-7.5
Manufacturer Butora
Shipping Dimension 12.72 x 5.98 x 4.09 inches
I think this is wrong?
-
Product is Out of Stock as of Mar, 29 2024
Want to monitor availability?
of brand new stock?
or
Need this item ASAP?
Check if this is available on Amazon
or available in other sites
Send us the link so we can buy for you

Pay with

BUTORA Unisex Acro Tight Fit Climbing Features

  • Upper Material: German split-leather, [tongue] nylon mesh, silicone sponge

  • Closure: hook-and-loop

  • Midsole: 3D injection molded

  • Rubber: butyl Butora F5

  • Profile: downturned


About BUTORA Unisex Acro Tight Fit Climbing

With an aggressive asymmetry, Butora tight fit Acro climbing shoe dominates steep sport routes and technical Boulder problems. This downturned shoe provides a Slipper-like fit for narrower footed rock Warriors (look to the orange Acro if you have wide feet) thanks to the stretchy, padded, mesh tongue and Butora unique triple fork hook-and-loop strap. The Acro encapsulates your foot in German split-leather for moisture management, and the polyurethane strip works with the extended toe rubber to reduce stretching. The extended toe rubber also assists with toe hooking and the occasion crack climb, if sized slightly looser. Underfoot, the Acro features a 3D injection molded midsole that stays stiff at the downturned toe for a long-lasting Agro performance, And it stays slightly softer and the arch and heel to assist in less-overhung routes. Butora shaped the butyl Butora F5 rubber sole with sharp corners for toeing on microscopic crystals and side-stepping imaginary edges.