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Key Features:
Heel Pain Insoles: Non-Table Description in 9 Key Features
1. Antibacterial, Moisture-Wicking Top Layer
Material: A specialized antibacterial, moisture-wicking fabric that is eco-friendly, durable, and highly breathable.
Material Properties: The fabric features a cross-pore structure and antibacterial fibers to ensure excellent breathability and moisture absorption, channeling sweat into the lower layers.
Design & Benefits:
Porosity: 50-60% porosity for exceptional ventilation and over 95% moisture permeability.
Rapid Absorption: Absorbs sweat within 1-3 seconds, keeping feet dry during physical activities.
Antibacterial Protection: Prevents odor and maintains foot hygiene, ensuring comfort for prolonged wear.
2. 3D-Printed Breathable Layer
Material: Made of 99% antibacterial TPU with added antimicrobial agents.
Material Properties: Combines softness, elasticity, and durability while suppressing bacterial growth.
Design Features:
Micropores: Over 2.3 million micropores with 65-75% porosity for consistent airflow.
Layered Structure: Multi-layer 3D printing enhances support and cushioning.
Customization: Tailored to match the individual foot arch for optimal ergonomic support.
Benefits:
Continuous airflow for quick sweat evaporation.
Shock absorption to reduce foot pressure during movement.
Antibacterial protection and enhanced temperature regulation.
3. Moisture Absorption & Gentle Massage Layer
Material: Open-cell foam with a 280% moisture absorption rate.
Design Features:
Pyramid Structure: Pyramid-shaped surface enhances contact area and massage functionality.
Microchannels: Channels distribute moisture evenly across the insole.
Benefits:
Rapid Moisture Absorption: Quickly wicks away moisture, keeping feet dry.
Massage Effect: Gently stimulates nerve endings to promote blood circulation.
Pressure Distribution: Reduces pressure points for greater comfort during extended use.
4. Rapid Drying Layer
Material: 3D-printed Laval nozzle system with 800-1000 drainage holes.
Benefits:
Quick Evaporation: Channels moisture downward and accelerates drying.
Clean & Healthy: Prevents moisture buildup and bacterial growth.
Immediate Wear: Shoes remain dry even after washing.
5. Automatic Air-Drying System
Design: Contains 32 air cushions, 12 airflow channels, and over 2000 micro-scale Laval structures.
Working Principle:
Air circulation driven by foot pressure and body heat (42-45°C).
Benefits:
Promotes quick evaporation of absorbed moisture.
Reduces foot discomfort caused by prolonged dampness.
6. Customizable Functional Inserts
Material Options: Ortholite foam, ACF (advanced cushioning foam), high-rebound materials, and silicone inserts.
Benefits:
High Support: Provides additional arch and heel support.
Shock Absorption: Reduces impact on feet and knees, alleviating fatigue.
Flexibility: Enhances energy return for improved comfort during movement.
7. Health Therapy Functionality
Material: Optional additions like energy chips, magnetic patches, and far-infrared elements.
Benefits:
Promotes blood circulation to reduce heel pain and fatigue.
Balances energy levels and provides stress relief.
Antibacterial ion technology ensures a clean foot environment.
8. Therapeutic Patch Integration
Design: Special compartments for therapeutic patches that activate with foot warmth.
Benefits:
Customizable solutions for pain relief, muscle relaxation, and health management.
Effective delivery of therapeutic agents through foot absorption.
9. Smart Arch & Heel Support with Carbon Stability
Design: Ergonomic arch grooves combined with an Orthotic Carbon Board for structural stability.
Benefits:
Provides firm support to reduce heel strain.
Stabilizes the foot for proper posture during walking or running.
Adaptive arch and heel design minimize pain and discomfort for flat and narrow feet.
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Key Features
Specification
Heel Pain Insoles: Non-Table Description in 9 Key Features
1. Antibacterial, Moisture-Wicking Top Layer
Material: A specialized antibacterial, moisture-wicking fabric that is eco-friendly, durable, and highly breathable.
Material Properties: The fabric features a cross-pore structure and antibacterial fibers to ensure excellent breathability and moisture absorption, channeling sweat into the lower layers.
Design & Benefits:
Porosity: 50-60% porosity for exceptional ventilation and over 95% moisture permeability.
Rapid Absorption: Absorbs sweat within 1-3 seconds, keeping feet dry during physical activities.
Antibacterial Protection: Prevents odor and maintains foot hygiene, ensuring comfort for prolonged wear.
2. 3D-Printed Breathable Layer
Material: Made of 99% antibacterial TPU with added antimicrobial agents.
Material Properties: Combines softness, elasticity, and durability while suppressing bacterial growth.
Design Features:
Micropores: Over 2.3 million micropores with 65-75% porosity for consistent airflow.
Layered Structure: Multi-layer 3D printing enhances support and cushioning.
Customization: Tailored to match the individual foot arch for optimal ergonomic support.
Benefits:
Continuous airflow for quick sweat evaporation.
Shock absorption to reduce foot pressure during movement.
Antibacterial protection and enhanced temperature regulation.
3. Moisture Absorption & Gentle Massage Layer
Material: Open-cell foam with a 280% moisture absorption rate.
Design Features:
Pyramid Structure: Pyramid-shaped surface enhances contact area and massage functionality.
Microchannels: Channels distribute moisture evenly across the insole.
Benefits:
Rapid Moisture Absorption: Quickly wicks away moisture, keeping feet dry.
Massage Effect: Gently stimulates nerve endings to promote blood circulation.
Pressure Distribution: Reduces pressure points for greater comfort during extended use.
4. Rapid Drying Layer
Material: 3D-printed Laval nozzle system with 800-1000 drainage holes.
Benefits:
Quick Evaporation: Channels moisture downward and accelerates drying.
Clean & Healthy: Prevents moisture buildup and bacterial growth.
Immediate Wear: Shoes remain dry even after washing.
5. Automatic Air-Drying System
Design: Contains 32 air cushions, 12 airflow channels, and over 2000 micro-scale Laval structures.
Working Principle:
Air circulation driven by foot pressure and body heat (42-45°C).
Benefits:
Promotes quick evaporation of absorbed moisture.
Reduces foot discomfort caused by prolonged dampness.
6. Customizable Functional Inserts
Material Options: Ortholite foam, ACF (advanced cushioning foam), high-rebound materials, and silicone inserts.
Benefits:
High Support: Provides additional arch and heel support.
Shock Absorption: Reduces impact on feet and knees, alleviating fatigue.
Flexibility: Enhances energy return for improved comfort during movement.
7. Health Therapy Functionality
Material: Optional additions like energy chips, magnetic patches, and far-infrared elements.
Benefits:
Promotes blood circulation to reduce heel pain and fatigue.
Balances energy levels and provides stress relief.
Antibacterial ion technology ensures a clean foot environment.
8. Therapeutic Patch Integration
Design: Special compartments for therapeutic patches that activate with foot warmth.
Benefits:
Customizable solutions for pain relief, muscle relaxation, and health management.
Effective delivery of therapeutic agents through foot absorption.
9. Smart Arch & Heel Support with Carbon Stability
Design: Ergonomic arch grooves combined with an Orthotic Carbon Board for structural stability.
Benefits:
Provides firm support to reduce heel strain.
Stabilizes the foot for proper posture during walking or running.
Adaptive arch and heel design minimize pain and discomfort for flat and narrow feet.
Below is a detailed copyable table describing the Heel Pain Insoles features and functions based on the provided product characteristics and images.
| Feature | Material | Design Characteristics | Functional Benefits |
| 1. Antibacterial Top Layer | Special antibacterial moisture-wicking fabric | Cross-pore structure with 50-60% porosity; waterproof and mildew-resistant treatment | Rapid sweat absorption within 1-3 seconds, odor prevention, and long-lasting dryness. |
| 2. 3D-Printed Breathable Layer | 99% Antibacterial TPU | 2.3+ million micropores (65-75% porosity); lightweight, multi-layer 3D printing | Continuous airflow for quick sweat evaporation, antibacterial protection, and comfort. |
| 3. Moisture Absorption & Massage Layer | Open-cell foam with 280% absorption | Pyramid-shaped protrusions with microchannels for moisture distribution | Absorbs sweat rapidly, stimulates blood circulation via gentle massage, reduces pressure. |
| 4. Rapid Drying Layer | 3D-Printed Laval Nozzle System | 800-1000 drainage holes; air dynamics optimize water flow | Ensures quick drying, prevents moisture buildup, and maintains foot hygiene. |
| 5. Automatic Air-Drying System | Air cushions and micro-scale Laval structures | 32 air cushions, 12 airflow channels, and 2000+ micro Laval systems | Accelerates airflow circulation, enabling fast drying driven by pressure and body heat. |
| 6. Customizable Inserts | Ortholite Foam, ACF, High-rebound, Silicone | Adjustable inserts for shock absorption, support, and flexibility | Enhanced heel and arch support, impact reduction, and optimized comfort for movement. |
| 7. Health Therapy Functionality | Energy chips, magnets, far-infrared patches | Independent compartments for therapy materials | Promotes blood circulation, relieves stress, and reduces fatigue while preventing odor. |
| 8. Therapeutic Patch Integration | Custom health patches | Temperature-activated patch release through shoe insole compartments | Targeted relief for pain management, muscle relaxation, and overall foot health. |
| 9. Smart Heel Support with Carbon Stability | Orthotic Carbon Board, Smart Heel Design | Ergonomic arch grooves, deep U-heel, and carbon support board | Provides stability, reduces heel strain, adapts to different foot types for comfort. |
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