The Redford is individually handcrafted giving every single shoe its own distinctive qualities. Hours of manual labor go into construction of each shoe which takes over a full day to finish, starting with the tapered wood wedge being carved out of its original wood block, down to the last stitch on the leather. SHIPS MID DECEMBER.
ALL REDFORD PURCHASES INCLUDE FREE EMBROIDERED SHOE BAG!
Answer: Having a slightly higher effective heel height the average (appx. .75"), lifters could see the benefits of a more comfortable lift, better positioning and proper alignment. If you have mobility issues in your ankles, hips or shoulders, a higher heel height could help provide a better bar path and catch position.
Answer: Heel construction tests have been performed to see how much force is applied (or lost) though the lift. After testing UVA, TMU and wood, wood outperformed TMU by a margin of 12 percentage points (.65 vs .77). A score of 1 is ideal for this test indicating zero-loss of force through absorption of the material. TMU is a synthetic plastic that you will find on major mass-produced brands. From these density tests, wood's density allows the maximum force out of the materials currently available to produce heels on weightlifting shoes.
Answer: Please use the size guide below for reference. While standing, measure foot heel-to-toe (in centimeters). Find the length on the chart and the recommended size. *This chart includes 2cm, which is recommended for comfort. If you like a really snug fit, you may want to go down a half size from this chart.
Answer: check out our Exchange and Return Policy Page for more details. We'll give you a hint. We are going to take care of you.
Specifications Questions The P2.1 is unlike any other lifting shoe on the market. Each pair is individually handcrafted giving every single shoe its own distinctive qualities. Hours of manual...
Specifications Questions The Eastwood is individually handcrafted giving every single shoe its own distinctive qualities. Hours of manual labor go into construction of each shoe which takes over a...