Density in Materials
変換元 Aerogels to Osmium
Explore Material DensitiesMaterial density spans an enormous range—from aerogels lighter than air to osmium nearly twice as dense as lead. 理解する material densities helps engineers select the right materials for weight-critical applications.
Material Density Comparison
| Material | Density (kg/m³) | Relative to Water |
|---|---|---|
| Aerogel | 1-2 | 0.001-0.002× |
| Styrofoam | 25-200 | 0.03-0.2× |
| Balsa wood | 120-200 | 0.15× |
| HDPE plastic | 940-970 | ~0.95× |
| Water | 1000 | 1× |
| Concrete | 2400 | 2.4× |
| Aluminum | 2700 | 2.7× |
| Titanium | 4500 | 4.5× |
| Steel | 7850 | 7.85× |
| Copper | 8960 | 8.96× |
| Lead | 11340 | 11.3× |
| Gold | 19300 | 19.3× |
| Osmium | 22590 | 22.6× |
Why Density Matters in Engineering
Aerospace
- Lower density = lighter aircraft = better fuel efficiency
- Aluminum replaced steel, composites replace aluminum
- Carbon fiber: strong as steel, fraction of the weight
Construction
- Balance between strength and weight
- Foundation loads depend on material density
- High-density concrete for radiation shielding
Automotive
- Lighter cars = better fuel economy
- Aluminum bodies gaining popularity
- Magnesium for extreme weight savings
まとめ
Material density varies enormously—from aerogels that barely exceed air's density to osmium at 22 times water's density. This property is crucial for weight-critical applications in aerospace, automotive, and construction. Engineers constantly balance density against strength, cost, and other properties to optimize designs.