Thermal Insulation,
Soundproofing
Sound insulation performance ≥37db
*This laboratory is accredited by the Taiwan Accreditation Foundation (TAF).
90%
IRR
99%
UVR
37db
Sound Insulation
Nano
Light Filter
When To Use
Now!
New Development
Glass House | Doors and Windows Glass | Curtain Wall Building
Renovation of Old Buildings
Window and Door Glass | Skylights
Green Building
Better Options
Addressing the common requirement for Ui thermal conductivity coefficients in green building openings necessitating insulated glass units, AIM Energy-Saving Acoustic Glass offers not only dedicated insulated glass production lines but also the option to be fabricated with laminated glass. This enables architects and owners to replace insulated glass with laminated structures, achieving a balance between performance and budget. AIM provides customized solutions and greater design flexibility, helping green buildings earn certification points.
Green Building Planning
Urban Renewal Planning
Nano-Light Filtration Technology
Utilizing inorganic nano-light filtering technology, ceramic heat-insulating materials are nano-transparently processed and bonded to create highly efficient heat-insulating, sun-blocking, shatter-resistant, and eco-friendly energy-saving glass. It effectively filters harmful rays such as infrared (blocking capacity ≥90%) and ultraviolet (blocking capacity ≥99%), preventing skin sunburn while protecting furniture and collectibles. Delivers remarkable sun protection and heat insulation performance.
Metal Free
Clearer vision
AIM's Nano-Optical Filter Technology transforms millions of ceramic heat-insulating materials into nano-scale particles. This microscopic refinement doubles clarity while retaining a high proportion of visible light, eliminating the need for traditional Low-E coating methods that involve depositing metals or oxides onto glass surfaces.
Closer to normal glass
Purer color
Non-metallic composition ensures low reflectivity and minimal chromatic aberration. High visible light transmittance (380nm–780nm wavelength range) provides excellent daylighting. = Reduces reliance on indoor lighting fixtures and lowers air conditioning energy consumption.
We don't have
Drawbacks of Low-e.
Traditional Low-E glass often causes reflective glare hazards and poses traffic safety concerns; the surface metal sputtering process makes it prone to oxidation upon exposure to air, leading to degraded thermal insulation performance; moreover, its complex production process is highly carbon-intensive.
Light pollution
High pollution
Emissions-intensive
Smooth Signal
Non-metallic thermal insulation material, does not block signals
Outstanding sound insulation, wind pressure resistance
The laminated structure offers excellent sound insulation and wind pressure resistance, with sound insulation performance ≥37dB. It resists penetration under external impact forces. Even if tempered glass undergoes spontaneous breakage, fragments instantly adhere to the surface, minimizing the risk of flying shards causing injury.
Not affecting
the design
Can be laminated with glass of various colors, effortlessly transforming into energy-saving insulating glass.
Insulation Guarantee
Pioneering 6-Year Warranty
More
Capable
AIM
AIM Energy-Saving Glass
膠合結構
✔ Lower costs
✔ More energy-efficient and heat-insulating
✔ Enhanced explosion resistance and wind pressure resistance
V.S.
Low-E
中空玻璃
✘ Glass is costly
✘ Thermal insulation degrades over time
AIM Energy-Saving Glass
Performance
|
結構 |
可見光穿透率% | 可見光反射率% | 遮蔽係數SC | 熱傳導數Ui | 隔音db |
| 5+奈米光濾膜+5 | 70% | 7% | 0.59 | ≤5.6 |
≥37 |
結構 | 可見光穿透率% | 可見光反射率% | 遮蔽係數SC | 熱傳導數Ui | 隔音db |
| 5+奈米光濾膜+5 (適用綠建築) | 55.63% | 6.37% | 0.42 | 3.72 | ≥37 |
結構 | 可見光穿透率% | 可見光反射率% | 遮蔽係數SC | 熱傳導數Ui | 隔音db |
| 5+奈米光濾膜+5+12A+5 | 58% | 9% | 0.45 | ≤3 | ≥37 |
