Datos técnicos de AS 87 neo
El AS 87 neo supera sin esfuerzo el reto de una estabilidad extrema manteniendo una forma ligera. Este vidrio ultrafino es perfecto para aplicaciones en las que la flexibilidad y la sensibilidad táctil son cruciales. El AS 87 neo ofrece una tecnología de alto rendimiento fiable con un diseño moderno y elegante.
| Propiedades mecánicas | |
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|---|---|---|---|---|---|---|---|
| Density p (annealed at 40 °C/h) |
2.46 g/cm3 |
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| Chemical strengthening | thickness in mm temperature J in °C time t in min compressive stress (CS) in MPa depth of layer (DoL) in μm |
0.075 > 10 |
0.33 > 12 |
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| Young‘s modulus E | 71.9 kN/mm2 | ||||||
| Poisson‘s ratio μ | 0.216 | ||||||
| Torsion modulus G | 29.6 kN/mm2 | ||||||
| Knoop hardness HK 0.1/20 | 490 | ||||||
| Vickers hardness HV 0.2/25 | 560 | ||||||
| Propiedades térmicas | |||||||
|---|---|---|---|---|---|---|---|
| Coefficient of thermal expansion (CTE) α (20-300 °C) |
9.2 · 10-6 K-1 |
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| Mean specific heat capacity c p(20 –100 °C) |
0.87 J/(g · K) |
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| Transformation temperature Tg | 598 °C | ||||||
| Viscosities | Viscosity in η in dPas |
Temperature in °C |
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| Strain point | 14.5 | 577 | |||||
| Annealing point | 13.0 | 616 | |||||
| Softening point | 7.6 | 855 | |||||
| Propiedades ópticas | |||||||
|---|---|---|---|---|---|---|---|
| Refractive indices | ng | 1.5151 | |||||
| Pretreatment of samples | nF' | 1.5109 | |||||
| Condition as supplied | nF | 1.5104 | |||||
| [„as drawn“] | ne | 1.5065 | |||||
| nd | 1.5044 | ||||||
| nD | 1.5043 ± 0.0015 | ||||||
| nC' | 1.5022 | ||||||
| nC | 1.5017 | ||||||
| Abbe value | ve | 57.7 | |||||
| Photoelastic constant C [nm/(cm*MPa)] |
29.0 | ||||||
| Transmittance values | |||||||
|---|---|---|---|---|---|---|---|
| Thickness 0.33 mm | wavelength at 254 nm at 380 nm at 632.8 nm at 1064 nm |
τ (λ) in % 31.1 91.6 92.2 92.4 |
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| Edge wavelength λC ( τ = 0.46) |
thickness in mm 0.075 0.33 |
wavelength in nm 230 266 |
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| Luminous transmittance τvD65 in % |
0.33 | 92 | |||||
| Propiedades químicas | ||||||||
|---|---|---|---|---|---|---|---|---|
| Hydrolytic resistance acc. to DIN ISO 719 | ||||||||
| Class | HGB 2 |
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| Equivalent of alkali per gram of glass grains [µg/g] | 56 | |||||||
| Acid resistance acc. to DIN 12 116 | ||||||||
| Class | S 4 | |||||||
| Half surface weight loss after 6 hours [mg/dm²] | 61 | |||||||
| Alkali resistance acc. to ISO 695 | ||||||||
| Class | A 1 | |||||||
| Surface weight loss after 3 hours [mg/dm²] | 66 | |||||||
| Propiedades eléctricas | |||||||
|---|---|---|---|---|---|---|---|
| Dielectric constant ɛr (at ν = 25°C) |
at 1 MHz at 1 GHz at 5 GHz |
8.4 7.6 7.5 |
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| Dissipation factor tan δ (at ν = 25°C) |
at 1 MHz at 1 GHz at 5 GHz |
252 · 10-4 176 · 10-4 217 · 10-4 |
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| Conductivity (at ν = 25°C) |
in S/cm direct current |
160 · 10-12 | |||||
