Meta-aramid honeycomb is a lightweight, high-strength, heat and flame-resistant material used in aerospace and automotive sectors, particularly for fire-safe cabin panels, flooring, and vehicle interiors to improve safety and fuel enjciency.
Aramid fibers, such as Kevlar, typically have a tensile strength of around 2,600-4,300 MPa, significantly higher than fiberglass (2,000-3,500 MPa) and carbon fiber (2,500-6,000 MPa). However, carbon fiber can exceed aramid in some forms. The specific tensile strength can be up to five times greater than that of steel, making aramid fibers ideal for ballistic protection and armor applications.
Aramid fibers demonstrate thermal stability and retain their mechanical properties at temperatures up to around 500° C (~932° F). In contrast, materials like nylon and polyester begin to degrade at much lower temperatures. They do not melt but will begin to decompose at approximately 500° C, while carbon fibers maintain strength up to 2,500° C in inert environments.
Aramid materials, including Nomex and Kevlar, have excellent resistance to a wide range of corrosive substances. They perform better than nylon and polyesters when exposed to harsh chemicals. They are, however, sensitive to strong acids and some solvents. This is in contrast to PTFE fibers like Teflon, which have an almost universal chemical resistance.
The density of aramid fiber like Kevlar is typically around 1.44 g/cm³, which is lighter than carbon fiber (around 1.5-2.0 g/cm³) and fiberglass (about 2.5g/cm³). Aramid's high strength-to-weight ratio makes it particularly useful for applications where maximizing strength and minimizing weight is essential, such as in body armor, aerospace structures, and sports equipment.
| Cell Dia (mm) | size L (mm) | Density(kg/m3) | W(mm)*L(m) |
| 3.2 | 1.83 2.29 2.75 3.67 4.5 5.5 |
32/48/64 | 1220×2440 1300×2600 1600×3200 |
| 4.8 | 32/48/64 | ||
| 6.4 | 40 | ||
| 9.5 | 40 |