Blade-Shaped Footwear

The ACRONYM x ALIVEFORM THE BLADE Uses an Open 3d-Printed Lattice Structure

ACRONYM and ALIVEFORM released THE BLADE as a fully 3D-printed shoe constructed around an exposed lattice framework and elongated blade-like silhouette. The design references Tsui Hark’s 1995 wuxia film The Blade while using a porous open structure intended to circulate air across the foot during wear. ALIVEFORM manufactures each pair through a single-pass 3D printing process that eliminates stitching, gluing, and conventional molding techniques, allowing the shoe to maintain a continuous geometric shell across the upper and sole.

The shoe launches in four colorways including Charcoal, Ghost Glass, Nickel, and fluorescent green Wasp Tech. Pricing ranges from ¥44,000 JPY to ¥52,800 JPY depending on the finish and material treatment. The lattice geometry integrates cushioning and flexibility directly into the printed structure while maintaining a barefoot-style fit and exaggerated aerodynamic profile.

Image Credit: ALIVEFORM, <a rel='nofollow' href='https://hypebeast.com/2026/5/acronym-aliveform-3d-printed-shoe-the-blade-release-info'>hypebeast</a>

3d-printed Continuous Lattice Footwear
A seamless single-pass 3D printing method that removes stitching and gluing creates potential for radically simplified production lines and bespoke fit at scale.
Integrated Lattice Cushioning
Porous geometric structures that combine cushioning, flexibility, and ventilation into one printed element open avenues for multifunctional component consolidation and weight reduction.
Aerodynamic Blade-shaped Silhouettes
Elongated, sculptural profiles that emphasize airflow and a barefoot fit suggest new stylistic categories that blend performance engineering with high-fashion design.

Where This Applies

Footwear Manufacturing
Production paradigms that shift from sewing and molding to single-pass additive processes could upend supply chains and lower barrier to customized, on-demand runs.
Additive Manufacturing Materials
Demand for durable, flexible, and breathable printable polymers and composite treatments is likely to accelerate innovation in material formulations and post-processing techniques.
Athletic Performance Gear
Equipment that integrates structural, cushioning, and ventilation properties directly into one printed component points to new product classes that prioritize integrated biomechanical performance.
SCORE
7.2 out of 10
GENDER
50% Men50% Women
MARKETTop markets: North America, South America, Europe, Asia, Africa
GENERATION
  • Gen Alpha
  • Gen Z (primary audience)
  • Millennial (primary audience)
  • Gen X (primary audience)
POPULARITY
Popularity 65%
Activity 60%
Freshness 92%