Energy wave
Technical compression socks with 3D Wave structure
ENERGY WAVE is the line of technical compression socks designed by ACCAPI that integrates 3D Wave structure, ACCAPI FIR fiber and an integrated taping system.
The special 3D Wave three-dimensional wave structure acts on the skin and subcutaneous tissues through alternating compression that stimulates the circulatory system and promotes venous return.
Thanks to ACCAPI FIR fiber, the sock naturally emits far infrared rays (between 5 and 20 microns), helping to improve blood circulation and proving particularly effective for peripheral microcirculation.
The integrated taping, with textile bands positioned in the most stressed areas, supports muscular activity and helps restore physiological balance.
Improved microcirculation
The combined action of the 3D Wave structure and ACCAPI FIR fiber stimulates microcirculation and promotes better tissue oxygenation.
Faster muscle recovery
When worn after exertion, these technical compression socks help reduce muscle tension, providing a feeling of lightness and well-being in the legs.
Integrated taping for greater efficiency
The special textile structure with differentiated bands supports specific areas of the foot and leg, improving muscular response and circulatory efficiency.
Total protection and comfort
The garments feature UVA protection, natural bacteriostatic properties and odor control to ensure comfort and hygiene even during prolonged use.
WAVE TRAMA-TECH TECHNOLOGY
The core of the ENERGY WAVE line is WAVE TRAMA-TECH technology, an advanced textile structure that alternates convex and concave surfaces both inside and outside the sock.
This configuration creates targeted mechanical compression capable of stimulating the circulatory system, promoting venous return and improving tissue oxygenation.
The result is a dynamic compression sock that supports athletic performance and contributes to muscle recovery.
INTEGRATED TAPING
The INTEGRATED TAPING, consisting of textile bands with differentiated weaving placed in areas most stressed during movement, supports muscular activity through somatosensory stimulation.
This system helps improve circulatory function and supports the recovery of muscular homeostasis.
