THE PHYSICS OF DRY.

Why 56 Quadrillion pores outperform a trillion fibers.

Why the Maze Pattern

the patented water-flow technology

Inspired by nature and engineered for performance, the Maze Oasis maze design redefines drying through capillary action.
Learn
Technical drawing of a product with blue lines and yellow highlights, featuring text '+40% Surface Area'.

ISO-EVAPORATIVE CHANNELS™

The Flaw of Flatness:
On a smooth surface, water creates a "suction seal" against the skin (The Young-Laplace Effect). This traps moisture and suffocates the stone.


The Maze Solution:
We engraved a specific geometric pattern to break surface tension. The channels act as Micro-Convection Vents, allowing air to circulate under your foot even while you stand on it.


Result: 400% more evaporative edge area than a flat slab.

AERODYNAMICS

Micro-Convection
Airflow System

Flat surfaces create a vacuum seal that traps bacteria. Maze Oasis utilizes Iso-Evaporative Channels™ to break surface tension and force continuous airflow under your feet. The result is a surface that doesn't just dry—it breathes.

400%

More Airflow

0.4s

Tension Break
Maze Oasis Airflow Simulation
Close-up of a porous material with a blue background

NATURAL NANOTECH

The core material is Diatomaceous Earth—the fossilized remains of ancient aquatic phytoplankton. Under a microscope, these fossils reveal a complex, honeycomb-like lattice structure.


The Sponge Effect:
This porosity allows the material to hold 150% of its weight in water instantly, then release it back into the atmosphere as vapor.

It is not "magic." It is thermodynamics.

The R&D Protocol

Not Theory.
Validated Physics.

We didn't just slice a rock. We engineered a pump. Over 18 months, our team analyzed fluid dynamics across 50 distinct geometric configurations to solve the "Stagnation Problem" of flat stone mats.

The Capillary Engine:
The Maze pattern isn't decorative. It creates a pressure differential. The narrow channels act like microscopic straws, actively pulling moisture away from the contact point (your foot) and distributing it for rapid oxidation.

18 Mo.

Research & Dev

50+

Prototypes Tested
Capillary Action Diagram

Fig 1.1: Capillary Suction Dynamics

BACTERIAL STARVATION

  • THE PETRI DISH

    Fabric mats stay damp for hours. This "Warm + Wet" environment is the perfect incubator for bacteria and mold colonies.

  • THE DESERT.

    The Stone Mat dries in seconds (Desiccation). By eliminating the moisture instantly, we remove the fuel source. Bacteria cannot survive on a hyper-arid surface.

Performance Metrics

Metric
Cloth Mat
Maze Oasis
Drying Time
8-12 Hours
< 60 Seconds
Bacterial Growth
High Risk
Zero Survival
Lifespan
6 Months
5+ Years
Maintenance
Machine Wash
Sandpaper Refresh
Surface Physics
Absorption Only
Iso-Evaporative™

Zero Drift Architecture

Stability is safety. Cheap mats slide because they are light. We decoupled the stone from the floor using a high-friction EVA foundation.

Anchored. Not Placed.

The Moisture Bank

The porous lattice holds 150% of its weight in water instantly. It banks the liquid within the stone structure until it can be released as vapor.

Cycle Time: 60 Seconds.