Comfort as an engineering requirement.
Every KNIT decision — yarn choice, stitch geometry, filter architecture, finishing chemistry — is made against a single question: will the wearer keep it on?

Knit as one piece, not cut and sewn.
Industrial 3D-knit machines produce our mask body as a single seamless unit. The result: no stitched seams to abrade the face, and stretch that adapts to the wearer rather than resisting them.
A durable finish, not a spray.
Antiviral treatment is bonded to the fabric at the finishing stage and tested for retention across wash cycles — the outer layer stays functional through everyday use.
SMMMS filtration, refreshed on schedule.
Replaceable filter cartridges use a Spunbond–Melt-blown–Melt-blown–Melt-blown–Spunbond stack, independently benchmarked against PFF2 / N95-class thresholds.
Airflow measured, not assumed.
Fabric density and filter porosity are tuned so wearers can maintain conversation and light athletic effort without the airway restriction of disposable stock.
KNIT vs disposable vs N95.
| KNIT | Disposable | N95 | |
|---|---|---|---|
| Reusable | — | — | |
| Replaceable filter | — | — | |
| Seamless anatomical fit | — | ||
| Breathable during exercise | — | — | |
| Antiviral fabric treatment | — | — | |
| Lab-tested filtration | |||
| Recycled-material construction | — | — |
Filtration efficiency figures based on third-party laboratory testing. Actual performance varies with fit, wear duration, and filter replacement schedule.
