20 YEARS OF RESEARCH IN
THE INFRARED FIELD,
BACKED BY
INTERNATIONAL SCIENTIFIC
STUDIES
INVISIBLE, INFINITE, BIOENERGETIC: ENERGY-GENERATING FIBERS
ACCAPI FIR fiber, integrated with noble metal nanotechnology, emits Far Infrared Rays (FIR) when stimulated by body heat.
These emissions penetrate up to 4 cm into the tissues, promoting improved peripheral blood circulation, more efficient body heat management, and a more balanced distribution of fluids.
Outer layer:
SWEAT & VAPOR
ACCAPI FIR GARMENT
FIR EMISSION
BODY THERMAL IRRADIATION
Inner layer:
EPIDERMIS
DERMS
HYPODERMIS
MUSCLE
FIR EMISSION + BODY HEATING =
Increase:
BLOOD FLOW
RECOVERY
PERFORMANCE
Decreases:
INFLAMMATION
TISSUE DAMAGE
STIFFNESS & PAIN
MUSCLE
OXYGENATION
RECOVERY
TIMES
OXIDATIVE
STRESS
THERMOREGULATION
AND THERMOGENESIS
PROCESSES
UNPLEASANT
ODORS
ITS PROPERTIES
AFTER REPEATED
WASHING
THE GENESIS OF AN EVOLVED FIBER
ACCAPI FIR is not the result of simple textile processing. It is born from a process that merges matter, energy, and environmental control in a balance that resembles an advanced materials laboratory more than a traditional textile plant.
At its core is a technical yarn designed as a functional micro-structure, rather than a mere support for clothing.
OUR FIBER IS A COMPOSITE MATRIX
Each ACCAPI FIR fiber is designed as a polymer-mineral matrix, integrating:
• Noble metal micro-particles
• Functional bioceramics
• Engineered textile support
This is not a simple surface coating: the materials are embedded into the polymer matrix, becoming part of the yarn’s core structure and providing inexhaustible emission.
A PROCESS GUIDED BY ENERGY AND PRECISION
The uniqueness of our fiber is found not just in the raw materials, but in the integration process. As the thread is formed, the functional compound is subjected to:
• Controlled vibrational stimulation
• Dynamic stabilization fields
• Calibrated micro-movements
ENVIRONMENTAL INTEGRATION WITHIN THE MATERIAL
Manufacturing takes place under strictly controlled environmental conditions, since even the slightest variations can alter the final structure. The production cycle is carried out in settings with precise regulation of:
• Temperature, to stabilize the integration phases between the polymer and mineral components.
• Humidity, to maintain a constant rheological response of the matrix.
• Air quality, to prevent microscopic interference during the yarn formation phase.
FROM FIBER TO FABRIC: FUNCTIONAL CONTINUITY
When the yarns are woven, the goal is not merely aesthetic or mechanical.
The weaving process is engineered to preserve the orientation and internal distribution of the functional components, avoiding stresses that could alter the yarn's architecture.
The result is a fabric where function is not applied afterward; it is intrinsic, born alongside the fiber itself.
WHAT MAKES ACCAPI FIR UNIQUE?
ACCAPI FIR is different because:
• It does not use temporary surface treatments
• It does not rely on end-of-cycle finishes
• It does not depend on coatings that degrade over time
Its functional identity is structural, not cosmetic. It is the result of a precise balance between materials science, environmental control, and textile micro-engineering. We don't just create technical fabrics. ACCAPI FIR is engineered to be something more, from the very moment it is born.
