Kevlar Mesh Fabric is a high-performance, open-mesh material made from Para-Aramid Fiber (PPTA). Through a specialized weaving process, it forms uniform pores while retaining Kevlar’s core strengths—high tensile strength, heat resistance, and cut resistance—combined with breathability, flexibility, and lightweight characteristics.
· High Specific Strength: Maintains Kevlar's tensile strength (≥ 3.6 GPa) while weighing only 1/5 the weight of steel mesh.
· Tear Resistance: Mesh design disperses force and prevents crack propagation.
· Impact Energy Absorption: Pores allow localized deformation, while fiber slip and breakage dissipate energy under impact.
· Breathability & Fluid Permeability: Open structure allows airflow and liquid passage—ideal for cooling and filtration applications.
· Flexibility: Conforms easily to complex or curved surfaces (e.g., joints, contours).
· Thermal Stability: Heat-resistant up to 400°C (short term); does not melt, only carbonizes under extreme heat.
· Ballistic Vest Backing: Reduces weight and increases ventilation in NIJ Level IV body armor.
· Helmet Liner Padding: Absorbs blast impact while allowing airflow.
· High-Temperature Gas Filtration: Used in filter bags for coal-fired or chemical plants; resists acid/alkaline gases.
· Wear-Resistant Screens: Replaces metal mesh in mining applications, extending service life 3–5 times.
· Composite Reinforcement: Serves as mesh skeleton to improve delamination resistance in CFRP components.
· Aircraft Ventilation: Reinforces duct systems in engine compartments to prevent foreign object damage.
· Footwear Uppers: Lightweight, tear-resistant mesh for performance shoes.
· Cut-Resistant Gloves: Laminated with TPE for enhanced protection without sacrificing dexterity.
