Description
| Size | Height (cm) | Chest (cm) | Waist (cm) |
|---|---|---|---|
| XS | 152-160 | 81-87 | 67-73 |
| S | 158-166 | 85-91 | 71-77 |
| M | 164-172 | 89-95 | 75-81 |
| L | 170-178 | 93-99 | 79-85 |
| XL | 176-184 | 97-103 | 83-89 |
| Model | YM-1750 BK |
|---|---|
| Product Name | Yoroi Musha Body Protector |
| Type | Unisex |
| Country of Manufacture | Vietnam |
| Material | Nylon, Polyurethane |
| Protection Technology | XRD® Layering Pad (2-Layer Pad + 3D Mesh) |
| Padding Structure | XRD® + NBR Cushion Pad + 3D Mesh |
| Reinforcement | High-Strength Abrasion, Cut & Impact Resistant Fabric |
| Construction | Original Split Shoulder & Elbow Pads |
| Fit | Slim Fit |
| Mesh | Breathable Stretch Nylon Mesh |
| Support System | Multi-Support Belt System |
XRD® remains soft, lightweight, and flexible during normal movement. Upon impact, its molecular structure instantly stiffens to absorb and disperse energy, creating a protective shield. After the impact, it quickly returns to its original flexible state without affecting mobility or performance.
The protector uses a 2-layer protection system consisting of XRD® Impact Pad, Soft NBR Cushion Pad, and 3D Mesh Layer to maximize protection while maintaining exceptional comfort and flexibility.
Key protection areas feature an advanced high-strength material that provides excellent resistance to abrasion, cuts, and impact damage, offering approximately five times the tensile strength of steel (by weight) while remaining lightweight, durable, heat-resistant, and electrically non-conductive.
Independently segmented shoulder and elbow pads follow the body's natural movement for enhanced flexibility and a close, secure fit.
A streamlined silhouette keeps the protection close to the body, improving comfort and reducing unwanted movement during riding.
Highly breathable stretch nylon mesh improves ventilation while maintaining excellent flexibility and wearing comfort.
Multiple support belts securely hold the protector in place and help prevent the pads from shifting during activity.