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About This Item:
These Anti-Sweaty Insoles are meticulously engineered to provide a cool, dry, and comfortable environment for your feet, even during intense workouts or long periods of activity. Each layer and feature has been selected and designed to optimize moisture management, promote airflow, and reduce humidity-related discomfort, ensuring that sweaty feet become a thing of the past.
At the surface, the antimicrobial, moisture-wicking top layer combines eco-friendly yarns treated for water and mold resistance. Its special cross-vented fiber structure quickly absorbs sweat—within just 1-3 seconds—and channels it downward, away from the foot. This ensures that even under heavy perspiration, the insole surface remains comfortably dry and hygienic, preventing the growth of odor-causing bacteria.
Beneath this top layer lies the 3D-printed breathable tier, constructed from 99% antimicrobial TPU. With a porosity of 65-75% and millions of micropores, it promotes continuous airflow and rapid sweat evaporation. Antimicrobial additives further inhibit bacterial and fungal growth, reinforcing the dryness and freshness essential for sweaty feet management. This layer’s customizable 3D-printed design also provides ergonomic support, reducing friction and hot spots that can trigger sweating.
Below that, a specialized moisture-absorbing foam layer takes over, featuring open-cell construction and the ability to hold up to 280% of its weight in moisture. Its pyramid-shaped protrusions and micro-channels increase contact area for faster absorption and uniform moisture distribution. This gentle, massaging texture improves circulation and prevents moisture from pooling in one spot, consistently keeping the foot dry.
To accelerate the evaporation process, the rapid-drying layer utilizes 800-1000 tailored drainage holes and a 3D-printed Laval nozzle system. Together, they swiftly direct moisture downward and out of the insole. This design prevents upward seepage, ensuring that after washing or heavy use, the insole regains dryness almost immediately. Maintaining dryness not only prevents bacterial proliferation but also enhances overall foot comfort and health.
Supporting these efforts is the automatic air-drying system at the insole’s base. With every step, 32 air bladders and multiple airflow channels generate fresh currents—4-6 milliliters of air per step—that actively push out lingering moisture. Assisted by the foot’s own pressure and the warm conditions created during activity (42-45°C), this system ensures a constantly refreshed environment, diminishing the chance for sweat to accumulate.
For further customization, optional inserts made from Ortholite foam, ACF advanced cushioning materials, or high-resilience compounds can be added. These inserts improve shock absorption and support, stabilizing the foot and reducing friction-induced sweating. By distributing pressure evenly and enhancing foot alignment, the risk of moisture buildup due to overexertion is minimized.
Moreover, additional health therapy features—such as energy chips, magnetic elements, or terahertz materials—can be integrated into the insole. By promoting better blood circulation and releasing antimicrobial ions, these elements help maintain a balanced, sweat-free microclimate. Medicinal patches designed to release active ingredients at foot-temperature also contribute to dryness and hygiene, delivering targeted benefits like muscle relaxation or anti-inflammatory effects that indirectly help reduce sweat-related discomfort.
Finally, the micro-intelligent arch support and carbon fiber stability plate ensure proper weight distribution, minimizing areas of excessive pressure and heat build-up. This stability further discourages sweaty conditions, as well-supported feet are less likely to rub, overheat, or produce excess moisture.
In essence, these Anti-Sweaty Insoles attack the root causes of perspiration and humidity head-on. By combining advanced moisture-wicking fabrics, high-porosity 3D-printed layers, rapid-drainage systems, and customizable support, they cultivate a dry, breathable interior that keeps feet cool and sweat-free, significantly elevating comfort and performance.
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These Anti-Sweaty Insoles are meticulously engineered to provide a cool, dry, and comfortable environment for your feet, even during intense workouts or long periods of activity. Each layer and feature has been selected and designed to optimize moisture management, promote airflow, and reduce humidity-related discomfort, ensuring that sweaty feet become a thing of the past.
At the surface, the antimicrobial, moisture-wicking top layer combines eco-friendly yarns treated for water and mold resistance. Its special cross-vented fiber structure quickly absorbs sweat—within just 1-3 seconds—and channels it downward, away from the foot. This ensures that even under heavy perspiration, the insole surface remains comfortably dry and hygienic, preventing the growth of odor-causing bacteria.
Beneath this top layer lies the 3D-printed breathable tier, constructed from 99% antimicrobial TPU. With a porosity of 65-75% and millions of micropores, it promotes continuous airflow and rapid sweat evaporation. Antimicrobial additives further inhibit bacterial and fungal growth, reinforcing the dryness and freshness essential for sweaty feet management. This layer’s customizable 3D-printed design also provides ergonomic support, reducing friction and hot spots that can trigger sweating.
Below that, a specialized moisture-absorbing foam layer takes over, featuring open-cell construction and the ability to hold up to 280% of its weight in moisture. Its pyramid-shaped protrusions and micro-channels increase contact area for faster absorption and uniform moisture distribution. This gentle, massaging texture improves circulation and prevents moisture from pooling in one spot, consistently keeping the foot dry.
To accelerate the evaporation process, the rapid-drying layer utilizes 800-1000 tailored drainage holes and a 3D-printed Laval nozzle system. Together, they swiftly direct moisture downward and out of the insole. This design prevents upward seepage, ensuring that after washing or heavy use, the insole regains dryness almost immediately. Maintaining dryness not only prevents bacterial proliferation but also enhances overall foot comfort and health.
Supporting these efforts is the automatic air-drying system at the insole’s base. With every step, 32 air bladders and multiple airflow channels generate fresh currents—4-6 milliliters of air per step—that actively push out lingering moisture. Assisted by the foot’s own pressure and the warm conditions created during activity (42-45°C), this system ensures a constantly refreshed environment, diminishing the chance for sweat to accumulate.
For further customization, optional inserts made from Ortholite foam, ACF advanced cushioning materials, or high-resilience compounds can be added. These inserts improve shock absorption and support, stabilizing the foot and reducing friction-induced sweating. By distributing pressure evenly and enhancing foot alignment, the risk of moisture buildup due to overexertion is minimized.
Moreover, additional health therapy features—such as energy chips, magnetic elements, or terahertz materials—can be integrated into the insole. By promoting better blood circulation and releasing antimicrobial ions, these elements help maintain a balanced, sweat-free microclimate. Medicinal patches designed to release active ingredients at foot-temperature also contribute to dryness and hygiene, delivering targeted benefits like muscle relaxation or anti-inflammatory effects that indirectly help reduce sweat-related discomfort.
Finally, the micro-intelligent arch support and carbon fiber stability plate ensure proper weight distribution, minimizing areas of excessive pressure and heat build-up. This stability further discourages sweaty conditions, as well-supported feet are less likely to rub, overheat, or produce excess moisture.
In essence, these Anti-Sweaty Insoles attack the root causes of perspiration and humidity head-on. By combining advanced moisture-wicking fabrics, high-porosity 3D-printed layers, rapid-drainage systems, and customizable support, they cultivate a dry, breathable interior that keeps feet cool and sweat-free, significantly elevating comfort and performance.
Below is a table summarizing the layers, materials, design features, and key anti-sweaty benefits of the insoles:
| Layer/Feature | Materials & Characteristics | Design Features | Anti-Sweaty Benefits |
| Antimicrobial, Moisture-Wicking Top Layer | Eco-friendly, mildew-resistant yarns with cross-vented fiber structure | 50-60% porosity, >95% moisture permeability, rapid (1-3s) sweat absorption | Quickly channels sweat away from the foot surface, keeping it dry and inhibiting bacterial growth, reducing sweatiness and odor. |
| 3D-Printed Breathable Layer | 99% antimicrobial TPU with millions of micropores (65-75% porosity) | Multi-layer lattice design, 1.2 mm thickness, customizable fit | Ensures continuous airflow and rapid evaporation of moisture, prevents microbial growth, and stabilizes the foot, reducing hot spots and excessive sweating. |
| Moisture-Absorbing & Massaging Foam Layer | Open-cell foam, absorbs up to 280% its weight in moisture | Pyramid-shaped protrusions, micro-channels for even moisture distribution | Rapidly wicks away residual sweat, maintains dryness throughout the insole, provides gentle massage that improves circulation and deters sweat pooling. |
| Rapid-Drying Layer with Laval System | Specialized drainage holes (800-1000), 3D-printed Laval nozzles | Downward moisture flow design, aerodynamic drainage | Efficiently channels moisture down and out of the insole, enabling quick drying after washing or heavy use, preventing dampness that leads to sweat accumulation. |
| Automatic Air-Drying System | 32 air bladders, 12 ventilation channels, 2000+ micro Laval structures | Pressure-driven airflow (4-6 ml/step), continuous moisture evaporation | Each step pumps fresh air through the insole, ensuring persistent dryness and minimizing sweat buildup under active conditions. |
| Customizable Functional Inserts (Optional) | Ortholite foam, high-rebound materials, ACF cushioning, silicone options | Interchangeable inserts tailored to support or cushioning needs | Improved shock absorption and foot alignment reduce frictional heat and sweat production, enhancing dryness and comfort. |
| Health Therapy Features (Optional) | Energy chips, magnetic elements, terahertz materials | Independent air pockets for therapy elements | Better circulation and ion balance help maintain a healthier foot environment, indirectly controlling sweat and promoting dryness. |
| Medicinal Patch Application (Optional) | Various therapeutic patches (anti-inflammatory, soothing, etc.) | Heat-activated, slow-release via foot warmth | Targeted treatment can reduce inflammation and discomfort that may lead to sweating, supporting a cooler, drier foot environment. |
| Micro-Intelligent Arch Support & Carbon Plate | Ergonomic arch grooves, integrated carbon fiber plate | Even weight distribution, correct posture | Balanced foot support minimizes pressure points and friction hotspots, reducing heat and sweaty conditions inside the shoe. |
Overall Advantage:
These Anti-Sweaty Insoles seamlessly combine moisture-wicking fabrics, high-porosity 3D-printed layers, rapid drainage systems, and customizable support. By continuously managing sweat evaporation, providing gentle air circulation, and offering antimicrobial protection, they create a refreshingly dry and comfortable environment for the feet under all conditions.
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