News Detail
Ultra white glass vs ordinary glass: the ultimate battle of transparency
In the arena of transparent materials, ultra white glass and ordinary glass are engaged in a peak competition about optics. This showdown is not only about aesthetics, but also affects the future development direction of industries such as construction and photovoltaics.
Round 1: Component Analysis
• Iron content:
Ordinary glass: with an iron content of about 1000ppm (presenting a green tone)
Ultra white glass: iron content ≤ 150ppm (reduced by more than 85%)
• Differences in raw materials:
Ordinary glass uses conventional quartz sand
Ultra white glass selected low iron quartz sand (Fe ₂ O ∝ ≤ 0.015%)
Second round: Optical performance
• Measured transmittance (6mm thickness):
Ordinary glass: 89.2%
Ultra white glass: 91.6%
• UV transmittance:
Ordinary glass blocks 50% UV
Ultra white glass with customizable UV transmission solution
Third round: Physical characteristics
• Thermal stability:
Ordinary glass: Δ T=120 ℃
Ultra white glass: Δ T=150 ℃
• Surface flatness:
Ordinary glass: ≤ 0.5μm/mm
Ultra white glass: ≤ 0.3μm/mm
Fourth round: Application performance
• Building curtain wall:
Ultra white glass can increase indoor illumination by 15%
Color difference Δ E < 1.5 (indistinguishable to the naked eye)
• Photovoltaic modules:
Ultra white glass improves photoelectric conversion efficiency by 1.2%
Annual attenuation rate reduced by 0.3%
Laboratory data shows that at a thickness of 10mm, the light transmission advantage of ultra white glass is more pronounced: it transmits about 18% more visible light than ordinary glass. Although the price is 25-40% higher, the energy savings and aesthetic value it brings shorten the investment return cycle to 3-5 years. This transparency showdown proves that in the high-end application field, ultra white glass is winning overwhelmingly.
