We turn physical materials into programmable systems - enabling faster, lighter, stronger, and smarter products.
CHALLENGE
Today physical function of materials remain non-programmable
New industries demand faster iteration, localized production, and materials with multiple, conflicting properties.
Material interactions are unpredictable
Difficult to design and validate
Every formulation requires costly, slow physical prototyping
No rapid way to iterate or test new architectures.
Manufacturing technologies lock us out of the creative process
OUR SOLUTION
From
Prompt
to
Physical Material
A software-driven, closed-loop manufacturing platform
that designs & fabricates materials in real time.
X500
Faster Production
95%
Less Material
80%
Lower CAPEX
A material compiler technology turning functional requirements into material properties at industrial scale.
04
01
02
03
TECHNOLOGY
Creation of new anisotropy & isotropic material
Micro-scale manipulation of multiple material
Generate material with engineered composition and performance
Density and porosity tuning
USE CASES
DEFENCE
Defense materials market
Next-generation performance demands new solutions
50–80% lighter
than metals - Self Armor
Superior Z-axis strength
structurally critical for missile and Drone systems.
Impact, heat, and vibration resistance
engineered at the material level
AI & DATA CENTER COOLING
By embedding cooling performance directly into the material, Enzo reduces energy use, lowers infrastructure cost, and unlocks the next generation of AI-scale computing.
Higher heat removal and compute density at scale
COMPOSITE
Multiple Functions. One Material
Our composites reduce layer count while delivering Z-axis strength, high thermal conductivity, and integrated EMI shielding - at industrial speed & scale
ADVANCED ALLOYS
Reduces processing complexity while enabling engineered composition
Limit breaker narrative
COMMERCIAL
Material performance engineered at the fiber level
