Views: 63 Author: Site Editor Publish Time: 2025-11-05 Origin: Site
Sneaker Structure and Midsole Classification
Basic Structural Functions
• Upper: Provides support, containment, and breathability
• Midsole: Determines cushioning, responsiveness, and comfort
• Outsole: Responsible for traction and durability, directly contacting the ground
Midsole Material Categories
Divided by physical structure into two main types:
(I) Mechanical Structures
Utilizes rubber, plastic, carbon fiber through and layered designs to absorb impact through deformation.
Representative Technologies:
• Nike Air series (Air Sole/Air Max/Air Zoom)
• Adidas Springblade/4D printing
• ASICS Gel cushioning
• Li-Ning Jiang technology, Xtep Shock Absorption System
Characteristics: Resistant to compression, durable but heavier with limited cushioning potential.
(II) Foam Materials
TPE-based (Thermoplastic Elastomer) foam plastics offering lightweight properties and design flexibility. Key substrates include:
1. EVA (Ethylene-Vinyl Acetate)
• Properties: Earliest foam material, average performance, poor durability
• Positioning: Entry-level products, commonly used in insoles
• Advantages: Low cost, mature manufacturing process
%1. TPU (Thermoplastic Polyurethane)
• Representatives: Boost, Li-Ning (mid-tier), Anta Nitrogen
• Properties: High rebound, abrasion-resistant;aromatic (yellowing-prone) and aliphatic (superior performance)
• Process: Typically bead-blasted,"popcorn" appearance
3. TPEE (Thermoplastic Polyester Elastomer)
• Representative: Li-Ning (entry-tier)
• Properties: Similar rebound to TPU with 30% weight reduction
• Positioning: Cost-effective alternative to PEBA
%1. PEBA (Polyether Block Amide)
• Aliases: Nylon 12, TPA
• Representatives: Nike Zoom X, Li-Ning (premium), 361° QU!KFLAME
• Properties: Industry-leading rebound (>80%), ultra-lightweight but tear-prone
• Process: Sheet foaming offers superior performance but lower material utilization
5. Additives: STF (Shear Thickening Fluid)
• Properties: Soft under slow deformation, rigid under impact
• Applications: Peak P4U, D3O materials
• Nature: Requires blending with TPE substrates
Foaming Process Comparison
Chemical vs Physical Foaming
| Process | Mechanism | Advantages | Disadvantages |
|---|---|---|---|
Chemical | Chemical blowing agents produce gas | Low cost | Environmental concerns |
Physical | Supercritical CO₂/N₂ injection | 30% higher rebound | Higher production costs |
Molding Technologies
Sheet Foaming
• Process: Block molding → CNC cutting
• Applications: Nike Zoom X, EVA insoles
Bead Foaming
• Process: Pre-expanded beads → steam molding
• Applications: Adidas Boost, Li-Ning
Injection Molding
• Feature: Direct molding into midsole shape
• Applications: Most EVA midsoles
Brand Technology Matrix
International Brands
• Nike: Zoom X (PEBA sheet), Air cushioning systems
• Adidas: Boost (TPU beads), Lightstrike Pro (TPEE)
• New Balance: FreshFoam (EVA blends), FuelCell (PEBA)
Domestic Brands
• Li-Ning: 䨻 (PEBA/TPU/TPEE tiered system)
• Anta: Nitrogen (EVA+PEBA/Aliphatic TPU/pure PEBA)
• Peak: Taiji (STF-blended foams)
Material Performance Comparison
| Material | Rebound Rate | Weight Index | Cost | Representative |
|---|---|---|---|---|
EVA | 50-60% | Heavy | Low | Basic running shoes |
TPU | 70-80% | Medium | Medium | Adidas Boost |
TPEE | 75-85% | Medium-light | Medium | Li-Ning (entry) |
PEBA | 80-90% | Light | High | Nike Zoom X |
