* TECHNOLOGY - BIOPHOTONIC FIR + NEGATIVE ION PLATFORM
ENGINEERED INTO THE POLYMER. CYCLING WITH YOUR BODY.
InfraCycle® is an intrinsic energy-return platform, performance lives inside the polymer itself, delivered by a dual-mechanism system of far-infrared cycling and biophotonic negative-ion emission.
// PLATFORM · WHAT LIVES INSIDE THE POLYMER
FIR MINERALS + BIOPHOTONIC MICRO-LENSES.
Far-infrared-emitting minerals and biophotonic micro-lenses are integrated directly into the polymer matrix, engineered to absorb the body's natural infrared output and re-emit it across an effective FIR spectrum.
Because the mechanism is intrinsic to the polymer itself, performance holds across washes, wear, and time. There are no surface coatings to wear off, no chemical finishes to wash out, and no degradation curve across the life of the product. Specifiable across virgin, recycled, and bio-based polymer systems, engineered to drop into your existing supply path.
IN-POLYMER MATRIX
/ INTEGRATION
/ ACTIVATION
ALWAYS CYCLING
/ DURABILITY
WASH-RESISTANT
/ DRAPE
SOFT, TRUE DRAPE
>5.0°C
/ TEMPERATURE RISE TEST
RISE
≥0.88
/ GB/T 30127-2013 THRESHOLD
PASS
100 W
/ HUMAN IR OUTPUT AT REST
BASELINE
0.93
/ FIR RADIATION PROPERTY TEST
EMISSIVITY
+5.0°C
FIR temperature rise · GB/T 30127-2013 verified
// MECHANISM 01 · FIR ABSORPTION + RE-EMISSION
YOUR ENERGY. RETURNED TO YOU.
/ MECHANSIM 01 · ENERGY CYCLING
ABSORBED & RETURNED.
The body emits roughly 100 watts of infrared energy at rest. InfraCycle® particles absorb that energy and re-emit it back across an effective far-infrared spectrum, gently, continuously, and right next to the skin.
Independent testing under the GB/T 30127-2013 standard confirms an FIR emissivity of 0.93, well above the 0.88 pass threshold, with a measured temperature rise exceeding 5.0°C in contact with the body. The mechanism is passive, permanent, and powered by the body itself, no batteries, no chemicals, no degradation curve.
NO-CHEM
/ MODE OF ACTION
PASSIVE
MINERAL
/ EMISSION SOURCE
BASED
CONTINUOUS
/ BIOPHOTONIC PROFILE
FIELD
ALWAYS
/ ACTIVATION PROFILE
ACTIVE
// MECHANISM 02 · BIOPHOTONIC + NEGATIVE ION
A FIELD THAT SUPPORTS THE BODY'S OWN CYCLE.
/ MECHANSIM 02 · EVAPORATION
NEGATIVE IONS, BY DESIGN.
Paired with the FIR mechanism, InfraCycle's mineral system emits negative ions, a continuous, low-level biophotonic field designed to support the body's natural homeostasis and freshness of the wear environment between body and fabric.
The biophotonic micro-lens system is engineered to work alongside the FIR cycle, broadening the platform from pure thermal return into a multi-axis comfort and recovery system. Because both mechanisms are embedded in the polymer itself, they activate together, every wear, every wash, across the life of the product.
FIR PERFORMANCE THAT HOLDS ACROSS THE LIFE OF THE PRODUCT.
// PERMANENCE · EMBEDDED VS COATED
/ STANDARD · TOPICAL FINISHES
COATED
-
FIR delivered via surface treatment or chemical finish
-
Emissivity diminishes with washing and abrasion
-
Limited lifecycle; measured in wash cycles
-
May introduce stiffness or coating residue over time
/ INFRACYCLE® · INTRINSIC PLATFORM
EMBEDDED
-
FIR minerals and biophotonic micro-lenses integrated into the polymer matrix
-
Performance verified across wash cycles, TR fabric tested at 0.92 emissivity before wash, holding above the 0.88 pass threshold after
-
Lifecycle of FIR cycling matches the lifecycle of the product
-
Maintains soft hand, full drape, and structural integrity
// FORMATS · THREE BUILD PATHS, ONE PLATFORM
SPECIFY BY INTEGRATION STAGE.
// COMPATABILITY · SPECIFIABLE ACROSS POLYMER SYSTEMS
DROPS INTO YOUR SUPPLY CHAIN.
/ OPTION 01
VIRGIN POLYMER
Specifiable into virgin polyester and nylon systems for standard performance, recovery, and lifestyle applications.
/ OPTION 02
RECYCLED POLYMER
Compatible with recycled polyester (rPET) streams, FIR cycling integrates seamlessly into circular material systems.
/ OPTION 03
BIO-BASED POLYMER
Specifiable into bio-based polymer systems for collections built around renewable feedstocks and reduced-impact material profiles.