Enabling Smarter Structures.
Geometry-led metamaterials that control vibration, sound, and structural response — proven on live infrastructure.
Four capabilities.
One approach.
Acoustic Control
Reduce transmitted sound through engineered geometric structures. Validated across speech-relevant frequency bands.
Vibration Isolation
Create acoustic and structural bandgaps — frequency ranges where vibration cannot propagate.
Thermal Isolation
Tune geometry and materials to specific thermal applications. Precise control without mass.
Industrial Deployment
Translate research-grade concepts into practical, testable hardware. Proven on live infrastructure.
Measured performance, not assumed.
The transmission loss chart demonstrates the difference geometry makes. Our acoustic bandgap architecture adds up to 35 dB of additional attenuation compared to an untreated panel. Every data point is a measured result from validated test hardware.
Measured • Not simulated • Repeatable
View data table
| Frequency (Hz) | With LC (dB) | Without LC (dB) |
|---|---|---|
| 250 | 20 | 5 |
| 500 | 30 | 8 |
| 1000 | 42 | 12 |
| 2000 | 38 | 10 |
| 4000 | 25 | 6 |
Proven on live infrastructure.
Seattle SR-520 Floating Bridge
Targeted noise disruption at expansion joints without compromising structural movement.
Read case study →Railway Noise Reduction
Compact metamaterial elements interrupt vibration paths at the source.
Read case study →Instrument Support Frame
60 dB vibration isolation via nickel superalloy cage with near-zero CTE.
Read case study →Secure Speech.
Speech leakage through walls is an operational security risk. Our acoustic bandgap panels use geometry — not mass — to disrupt transmission. Modular, lightweight, retrofittable, and validated to 45 dB.
"Performance must be measurable, not assumed."
Talk to us.
Share your challenge. We'll design a validation path — measured, not assumed.
Start a co-creation project