Your search keyword '"Window film"' showing total 79 results

1. Evaluation of Building Energy Efficiency Measures Using Statistical Simulation

Author

Negi, Ashish, Venu Gopal, K., Tatiparti, Sankara Sarma V., editor, and Seethamraju, Srinivas, editor

Published

2024

2. P‐250: Highly Transparent Optical Window Film with Outstanding Mechanical Strength and Folding Reliability for Flexible Displays.

Author

HONG, SUNG WOO

Subjects

OPTICAL films, POLYIMIDE films, FLEXIBLE display systems, ELECTRON donor-acceptor complexes, HYDROGEN bonding

Abstract

This research presents a new approach to developing an optical window film, leveraging the concept of charge‐transfer complex (CTC) intensification of colorless polyimide The window film demonstrates exceptional characteristics, including a tensile modulus of 8.4 GPa, a high total light transmittance of approximately 90%, and a yellow index below 3. This is the best‐recorded balance between mechanical strength and optical properties for a highly flexible optical film. Furthermore, the resulting film exhibits a pencil hardness grade surpassing 2H, alongside remarkable folding reliability, sustaining over 200,000 cycles of folding and unfolding. The excellent properties are ascribed to the unique supramolecular structure characterized by multiple hydrogen bonding and salt complexation interactions, significantly enhancing CTC intensification. [ABSTRACT FROM AUTHOR]

Published

2024

3. Phthalates in glass window films are associated with dormitory characteristics, occupancy activities and habits, and environmental factors.

Author

Fan, Liujia, Wang, Lixin, Wang, Kexin, and Liu, Fang

Subjects

PHTHALATE esters, INDOOR air pollution, DORMITORIES, ENDOCRINE disruptors, GLASS, PARTICULATE matter

Abstract

Phthalates are environmental endocrine disruptors that enter the human body through a variety of pathways and harm human health. The study aimed to explore the associations between phthalate concentrations in glass window films with dormitory characteristics, occupancy activities and habits, and environmental factors, of university dormitories. We surveyed these associations and measured the indoor environmental parameters of 144 dormitories from 13 universities in Beijing. Based on the results, we further explored the factors affecting phthalate concentrations using multivariate logistic regression. The results showed that phthalate concentrations in glass window films were associated with dormitory type, duration of occupancy, daily ventilation duration, window cleaning frequency, indoor relative humidity, light intensity, temperature, and particulate matter (PM10) concentration. To date, there have only been a few studies on the factors that influence phthalate concentrations in glass window films; therefore, further study is needed. Our findings determined the influence of external factors on the different types of phthalates in window films, which helps understand indoor phthalate pollution and evaluate human exposure based on phthalate concentrations in glass window films. [ABSTRACT FROM AUTHOR]

Published

2023

4. Energy saving analysis of a transparent radiative cooling film for buildings with roof glazing

Author

Zhitong Yi, Yingyan lv, Dikai Xu, Jingtao Xu, Hua Qian, Dongliang Zhao, and Ronggui Yang

Subjects

Transparent radiative cooling film, Spectrum selective, Window film, Building energy saving, Environmental technology. Sanitary engineering, TD1-1066, Building construction, TH1-9745

Abstract

A transparent radiative cooling (T-RC) film with low transmittance in solar spectra and selectively high emissivity in the atmospheric window (8–13 μm) is applied on roof glazing for building energy saving. To evaluate the performance of the T-RC film, two identical model boxes (1.0 m × 0.6 m × 1.2 m, L × W × H) were constructed and the inside air temperatures were measured in August in Ningbo, China. Results show that the maximum temperature difference between the two model boxes with and without the T-RC film was 21.6 °C during the experiment. A whole building model was built in EnergyPlus for the model box. With a good agreement achieved between the calculation results and the measured temperature data, the experimentally validated EnergyPlus model was then extended to an 815.1 m2 exhibition building with roof glazing to analyze the annual air conditioning (AC) energy consumption. The results show that by incorporating both the T-RC film's cooling benefit in summer and heating penalty in winter, the annual AC energy consumption of the exhibition building can be reduced by 40.9–63.4%, varying with different climate conditions.

Published

2021

5. Ultraviolet-reflective film applied to windows reduces the likelihood of collisions for two species of songbird.

Author

Swaddle, John P., Emerson, Lauren C., Thady, Robin G., and Boycott, Timothy J.

Subjects

WINDOW film, WINDOW bird collisions, ULTRAVIOLET radiation, BROWN-headed cowbird, ZEBRA finch, WINDOWS, BIRD populations, FLIGHT testing, SONGBIRDS, FINCHES

Abstract

Perhaps a billion birds die annually from colliding with residential and commercial windows. Therefore, there is a societal need to develop technologies that reduce window collisions by birds. Many current window films that are applied to the external surface of windows have human-visible patterns that are not esthetically preferable. BirdShades have developed a short wavelength (ultraviolet) reflective film that appears as a slight tint to the human eye but should be highly visible to many bird species that see in this spectral range. We performed flight tunnel tests of whether the BirdShades external window film reduced the likelihood that two species of song bird (zebra finch, Taeniopygia guttata and brown-headed cowbird, Molothrus ater) collide with windows during daylight. We paid particular attention to simulate the lighting conditions that birds will experience while flying during the day. Our results indicate a 75-90% reduction in the likelihood of collision with BirdShades-treated compared with control windows, in forced choice trials. In more ecologically relevant comparison between trials where all windows were either treated or control windows, the estimated reduction in probability of collision was 30-50%. Further, both bird species slow their flight by approximately 25% when approaching windows treated with the BirdShades film, thereby reducing the force of collisions if they were to happen. Therefore, we conclude that the BirdShades external window film will be effective in reducing the risk of and damage caused to populations and property by birds' collision with windows. As this ultraviolet-reflective film has no human-visible patterning to it, the product might be an esthetically more acceptable low cost solution to reducing bird-window collisions. Further, we call for testing of other mitigation technologies in lighting and ecological conditions that are more similar to what birds experience in real human-built environments and make suggestions for testing standards to assess collision-reducing technologies. [ABSTRACT FROM AUTHOR]

Published

2020

6. Semi-volatile organic compounds in infant homes: Levels, influence factors, partitioning, and implications for human exposure.

Author

Li, Hai-Ling, Liu, Li-Yan, Zhang, Zi-Feng, Ma, Wan-Li, Sverko, Ed, Zhang, Zhi, Song, Wei-Wei, Sun, Yu, and Li, Yi-Fan

Subjects

SEMIVOLATILE organic compounds, INFANTS, POLYBROMINATED diphenyl ethers, POLYCYCLIC aromatic hydrocarbons, SKIN absorption, PLASTIC foams

Abstract

While infants are developing, they are easily affected by toxic chemicals existing in their environments, such as semi-volatile organic compounds (SVOCs): phthalates, polycyclic aromatic hydrocarbons (PAHs), polybrominated diphenyl ethers (PBDEs), and organophosphate esters (OPEs). However, the specific living environment of infants, including increased plastic products and foam floor mats, may increase the presence of these chemicals. In this study, 68 air, dust, and window film samples were collected from homes, with 3- to 6-month-old infant occupants, to analyze phthalates, PAHs, PBDEs, and OPEs. High detection rates and concentrations suggest that these SVOCs are widespread in infant environments and are associated with cooking methods, smoking habits, the period of time after decoration, and room floors. The partitioning behavior of SVOCs indicates that the logarithms of the dust/gas-phase air partition coefficient (log K D) and the window film/gas-phase air partition coefficient (log K F) in homes are not at an equilibrium state when the logarithm of the octanol/air partition coefficient (log K OA) is less than 8 or greater than 11. Considering the 3 exposure routes, ingestion and dermal absorption have become the main routes of infant exposure to phthalates and OPEs, and ingestion and inhalation have become the dominant routes of exposure to PAHs and PBDEs. The total carcinogenic risk of SVOCs, which have carcinogenic toxicities, via ingestion and dermal absorption for infants in homes exceeds the acceptable value, suggesting that the current levels of these SVOCs in homes might pose a risk to infant health. Image 1 • Phthalates, PAHs, PBDEs, and OPEs are ubiquitous in infant homes. • Indoor partitioning of SVOCs with log K OA greater than 11 was not in equilibrium. • The total carcinogenic risk of SVOCs for infants exceeded the acceptable value. High detection rates and concentrations of SVOCs in infant homes are associated with elevated daily intakes of SVOCs for infants, and might pose a risk to infant health. [ABSTRACT FROM AUTHOR]

Published

2019

7. Assessment of human indoor exposure to PAHs during the heating and non-heating season: Role of window films as passive air samplers.

Author

Huo, Chun-Yan, Sun, Yu, Liu, Li-Yan, Sverko, Ed, Li, Yi-Fan, Li, Wen-Long, Ma, Wan-Li, Zhang, Zi-Feng, and Song, Wei-Wei

Abstract

Abstract The study of indoor organic film on planar surfaces has been shown to be important to assess the transport and fate of organic pollutants in indoor environments. Limited research showed the relationship between equilibrium status of polycyclic aromatic hydrocarbons (PAHs) and the growth days for indoor window films. To accomplish this goal, indoor window film samples were collected in relation to film growth days in Northeast China. PAHs were frequently detected in window films collected during heating season (H-season), with concentrations significantly higher than that of non-heating season (NH-season). Accumulation characteristics of PAH suggested that PAH concentrations (ng/m2 film) were growing near-linearly with time. Partitioning status for PAHs between gas and window films under different accumulation stage from 1 to 11 weeks was investigated during the two seasons. The equilibrium status of PAHs in the films suggested that the octanol–air partition coefficient (log K OA) of the targeted PAHs should be approximately <12 in order to reached the equilibrium stage within 11 weeks of growth. For all the growth days, the proportion of samples that reached equilibrium status for PAHs in the indoor window film samples were further calculated. The total air concentration of the target PAHs were predicted, giving median values of 900 and 240 ng/m3 in H-season and NH-season, respectively. Human health risk posed by PAHs was calculated in this research showing greater risks found for H-season than NH-season. The estimated incremental lifetime cancer risks were considered as safe with values lower than the WHO recommended guideline. Graphical abstract Unlabelled Image Highlights • The concentrations of PAHs (ng/m2) were growing near-linearly with film growth days. • PAHs in indoor window films were significantly influenced by central heating. • Different equilibrium statuses were noted for lower mass PAHs and higher mass PAHs. • PAHs with log K OA <11.3 can reach the equilibrium stage within 11 weeks of film growth. • Estimated human exposures to PAHs were higher in heating season than non-heating season. [ABSTRACT FROM AUTHOR]

Published

2019

8. 84‐5: Late‐News‐Paper: Flexible Cover Window Film with Improved Optical Clarity.

Author

Park, Min Sang, Kim, Sun Kug, Park, Sangyoon, Yoon, Ho Chul, and Kim, Jinwoong

Subjects

WINDOW film, OPTICAL films, WINDOWS, COMMERCIAL products, SURFACE roughness, LIQUID films

Abstract

SK Innovation and SK ie technology have developed and commercialized cover window films (FCW®) composed of functional coatings on transparent polyimide (PI) film for a foldable displays. We report on the development of PI film with high visual clarity, which can provide glass‐like feel to public users. Advances were achieved by engineering drying kinetics on the process of film fabrication, and the technology is applied to the commercial product of transparent PI film. [ABSTRACT FROM AUTHOR]

Published

2020

9. Saving Windows, Saving Money: Evaluating The Energy Performance of Window Retrofit and Replacement.

Subjects

WINDOWS, WINDOW blinds, RETROFITTING, WINDOW film

Published

2019

10. Phthalates in Glass Window Films of Chinese University Dormitories and Their Associations with Indoor Decorating Materials and Personal Care Products

Author

Liujia, Fan, Lixin, Wang, Kexin, Wang, Fang, Liu, and Gang, Wang

Subjects

China, Universities, Iron, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Infant, Humans, Cosmetics, Polyvinyl Chloride, phthalates, window film, dormitory, indoor sources, consumer products

Abstract

Phthalates are widely used as plasticizers in the production of various consumer products used daily. We analyzed phthalate concentrations in window film samples from 144 dormitories in 13 universities and combined them with the results of questionnaires to explore the associations of phthalate concentrations with indoor decorating materials and personal care products. The phthalate pollution levels discovered in this study were much higher than those in previous studies of baby rooms and university buildings. Moreover, it was found that phthalate concentrations in glass window films were associated with laminated wood or polyvinyl chloride (PVC) flooring, iron furniture, medium density fiberboard (MDF) furniture, and the usage frequency of bottled skincare products. Laminated wood or PVC flooring, wallpaper, and iron furniture are very likely sources of specific phthalates, and the large surface areas of MDF furniture can act as sinks of phthalates. Transport of phthalates from the packaging of bottled skincare products into cosmetics should be given more attention. Our results provide a deep understanding of the sources of phthalates in glass window films.

Published

2022

11. Energy saving analysis of a transparent radiative cooling film for buildings with roof glazing

Author

Hua Qian, Ronggui Yang, Dikai Xu, Dongliang Zhao, Jingtao Xu, Zhitong Yi, and Yingyan lv

Subjects

Radiative cooling, Renewable Energy, Sustainability and the Environment, business.industry, Nuclear engineering, Transportation, Window film, Building and Construction, Energy consumption, Transparent radiative cooling film, lcsh:TD1-1066, lcsh:TH1-9745, Glazing, Air conditioning, Infrared window, Transmittance, Emissivity, Environmental science, Spectrum selective, lcsh:Environmental technology. Sanitary engineering, business, Roof, Civil and Structural Engineering, Building energy saving, lcsh:Building construction

Abstract

A transparent radiative cooling (T-RC) film with low transmittance in solar spectra and selectively high emissivity in the atmospheric window (8–13 μm) is applied on roof glazing for building energy saving. To evaluate the performance of the T-RC film, two identical model boxes (1.0 m × 0.6 m × 1.2 m, L × W × H) were constructed and the inside air temperatures were measured in August in Ningbo, China. Results show that the maximum temperature difference between the two model boxes with and without the T-RC film was 21.6 °C during the experiment. A whole building model was built in EnergyPlus for the model box. With a good agreement achieved between the calculation results and the measured temperature data, the experimentally validated EnergyPlus model was then extended to an 815.1 m2 exhibition building with roof glazing to analyze the annual air conditioning (AC) energy consumption. The results show that by incorporating both the T-RC film's cooling benefit in summer and heating penalty in winter, the annual AC energy consumption of the exhibition building can be reduced by 40.9–63.4%, varying with different climate conditions.

Published

2021

12. ToF-SIMS Characterization of Robust Window Material for Use in Diode Pumped Alkali Lasers.

Author

Turner, David, Fairchild, Steven, Fletcher, Aaron, Rice, Christopher, and Pitz, Gregory

Subjects

*LASER pumping, *ALKALIES, *WINDOW film, *RUBIDIUM, *ALUMINUM oxynitride spinel, *ADSORPTION (Chemistry), *TIME-of-flight mass spectrometry

Abstract

Developments in diode pumped alkali laser (DPAL) systems have been impeded because of the catastrophic failure of laser windows. The window's failure is caused by localized laser-induced heating of window material. This heating is believed to occur due to increases in absorption on or near the surface of the window. This increase is believed to be caused by either adsorption of carbon-based soot from the collisional gas or by the diffusion of rubidium into the bulk material. The work presented here focuses on the diffusion of Rb into the bulk window materials and strives to identify a superior material to use as windows. The results of this research indicate that aluminum oxynitride (ALON), sapphire, MgAl2O4 (spinel), and ZrO2 are resistant to alkali-induced changes in optical properties. [ABSTRACT FROM AUTHOR]

Published

2018

13. Organophosphate esters flame retardants in the indoor environment.

Author

Vykoukalová, Martina, Venier, Marta, Vojta, Šimon, Melymuk, Lisa, Bečanová, Jitka, Romanak, Kevin, Prokeš, Roman, Okeme, Joseph O., Saini, Amandeep, Diamond, Miriam L., and Klánová, Jana

Subjects

*FIREPROOFING agents, *CHOLINESTERASE reactivators, *WINDOW film, *DUST, *HALOGENS

Abstract

Concentrations of 13 organophosphate ester flame retardants (OPEs) were measured in air, dust and window wipes from 63 homes in Canada, the Czech Republic and the United States in the spring and summer of 2013 to look for abundances, differences among regions, and partitioning behavior. In general, we observed the highest concentrations for halogenated OPEs, particularly TCEP, TCIPP and TDCIPP, and also non-halogenated TPHP. Differences between regions strongly depended on the matrix. The concentrations of OPEs in dust were significantly higher in the US than in Canada (CAN) and Czech Republic (CZ). CZ had the highest concentrations in window film and CAN in air. ΣOPE concentrations were 2–3 and 1–2 orders of magnitude greater than ΣBFRs in air, and dust and window films, respectively. We found a significant relationship between the concentrations in dust and air, and between the concentrations in window film and air for OPEs with log K OA values < 12, suggesting that equilibrium was reached for these compounds but not for those with log K OA > 12. This hypothesis was confirmed by a large discrepancy between values predicted using a partitioning model and the measured values for OPEs with log K OA values > 12. [ABSTRACT FROM AUTHOR]

Published

2017

14. DIY HOME ENERGY AUDIT: IS YOUR HOUSE BLEEDING YOU DRY?

Author

GIFFORD, HENRY

Subjects

*HUMIDITY control equipment, *WINDOW film

Abstract

The article offers brief information on various home energy auditing equipment including the Digital Moisture Meter, the Ultra-Aire MD33 dehumidifier and the Heat Control Adhesive Window Film from General Tools and Instruments LLC, Therma-Stor LLC and Gila.

Published

2018

15. Daylight performance of a microstructured prismatic window film in deep open plan offices.

Author

McNeil, Andrew, Lee, Eleanor S., and Jonsson, Jacob C.

Subjects

DAYLIGHT, WINDOW film, OPEN plan offices, SCATTERING (Physics), NEW product development

Abstract

Daylight redirecting systems with vertical windows have the potential to offset lighting energy use in deep perimeter zones. A microstructured prismatic film designed for such use was characterized using goniophotometric measurements and ray tracing simulations. The synthetically-generated bidirectional scattering distribution function (BSDF) data were shown to have good agreement with limited measured data for normal incident angles (0–60°). Measured data indicated that the prismatic film was most efficient when vertical angles of incidence were between 18 and 35° and within ±45° of normal incidence to the plane of the window so maximum energy savings across the full depth of the zone occurred over the equinox to winter solstice period. Annual lighting energy use and visual comfort in a deep open plan office zone were evaluated using the Radiance three-phase method in several climates and for south and east-facing window orientations. Lighting energy savings were 39–43% for a 12 m (40 ft) deep south-facing perimeter zone compared to the same zone with no lighting controls. The prismatic film with and without a diffuser controlled glare for views parallel to the window but produced glare for seated viewpoints looking toward the window. At mature market costs, the system was projected to have a simple payback of 2–6 years. Technical challenges encountered throughout the evaluation led to improvements in measurement and modeling tools and stressed the importance of having accurate input data for product development. [ABSTRACT FROM AUTHOR]

Published

2017

16. Brominated flame retardants in the indoor environment — Comparative study of indoor contamination from three countries.

Author

Venier, Marta, Audy, Ondřej, Vojta, Šimon, Bečanová, Jitka, Romanak, Kevin, Melymuk, Lisa, Krátká, Martina, Kukučka, Petr, Okeme, Joseph, Saini, Amandeep, Diamond, Miriam L., and Klánová, Jana

Subjects

*FIREPROOFING agents, *INDOOR air quality, *POLYBROMINATED diphenyl ethers & the environment, *ENVIRONMENTAL research, *CHEMICAL equilibrium

Abstract

Concentrations of more than 20 brominated flame retardants (FRs), including polybrominated diphenyl ethers (PBDEs) and emerging FRs, were measured in air, dust and window wipes from 63 homes in Canada, the Czech Republic and the United States in the spring and summer of 2013. Among the PBDEs, the highest concentrations were generally BDE-209 in all three matrices, followed by Penta-BDEs. Among alternative FRs, EHTBB and BEHTBP were detected at the highest concentrations. DBDPE was also a major alternative FR detected in dust and air. Bromobenzenes were detected at lower levels than PBDEs and other alternative FRs; among the bromobenzenes, HBB and PBEB were the most abundant compounds. In general, FR levels were highest in the US and lowest in the Czech Republic — a geographic trend that reflects the flame retardants' market. No statistically significant differences were detected between bedroom and living room FR concentrations in the same house ( n = 10), suggesting that sources of FRs are widespread indoors and mixing between rooms. The concentrations of FRs in air, dust, and window film were significantly correlated, especially for PBDEs. We found a significant relationship between the concentrations in dust and window film and in the gas phase for FRs with log K OA values < 14, suggesting that equilibrium was reached for these but not compounds with log K OA values > 14. This hypothesis was confirmed by a large discrepancy between values predicted using a partitioning model and the measured values for FRs with log K OA values > 14. [ABSTRACT FROM AUTHOR]

Published

2016

17. Phthalate Esters in Indoor Window Films in a Northeastern Chinese Urban Center: Film Growth and Implications for Human Exposure.

Author

Chun-Yan Huo, Li-Yan Liu, Zi-Feng Zhang, Wan-Li Ma, Wei-Wei Song, Hai-Ling Li, Wen-Long Li, Kannan, Kurunthachalam, Yong-Kai Wu, Ya-Meng Han, Zhi-Xiang Peng, and Yi-Fan Li

Subjects

*PHTHALATE esters, *WINDOW film, *INNER cities, *ENVIRONMENTAL exposure, *REGRESSION analysis

Abstract

Indoor window film samples were collected in buildings during 2014-2015 for the determination of six phthalate diesters (PAEs). Linear regression analysis suggested that the film mass was positively and significantly correlated with the duration of film growth (from 7 to 77 days). PAEs were detected in all window film samples (n = 64). For all the samples with growth days ranged from 7 to 77 days, the median concentrations of total six PAEs (∑6PAEs) in winter and summer window film samples were 9900 ng/m² film (2000 µg/g film) and 4700 ng/m² film (650 µg/g film), respectively. Among PAEs analyzed, di-2-ethyl-hexyl phthalate (DEHP) was the major compound (71 ± 9.7%), followed by di-n-butyl phthalate (DBP; 20 ± 7.4%) and diisobutyl phthalate (DiBP; 5.1 ± 2.2%). Positive correlations among PAEs suggested their common sources in the window film samples. Room temperature and relative humidity were negatively and significantly correlated with PAEs concentations (in ng/m²). Poor ventilation in cold winter in Noreastern China significantly influenced the concentrations of PAEs in window film which suggested higher inhalation exposure dose in winter. The median hazard quotient (HQ) values from PAEs exposure were below 1, suggesting that the intake of PAEs via three exposure pathways was considered as acceptable. [ABSTRACT FROM AUTHOR]

Published

2016

18. Highly transparent light-harvesting window film.

Author

COCILOVO, BYRON, AKI HASHIMURA, TWEET, DOUGLAS J., VOUTSAS, TOLIS, and NORWOOD, ROBERT A.

Subjects

*PHOTOVOLTAIC power generation, *ELECTROCHROMIC substances, *WINDOW film, *ARCHITECTURE & energy conservation, *SOLAR radiation

Abstract

We have simulated unique textured window films that capture solar radiation without compromising the win- dow's transparency by scattering infrared light toward photovoltaic strips located at the edges of the window. These films are ideal for powering electrochromic glass, which is difficult to install as each window requires its own power source. Our most promising design consists of an embedded array of 35° cones coated with a five-layer SiO2-Ag stack that was simulated to direct 1.4% of the incident light toward the edges and generate 1 W of power under a collimated 1000 W/m² AM1.5G source at 60° and an average of 0.5 W over a full year when applied to a 1 m x 1 m window. The internal visible transmittance of the window with the applied film is 95% at normal incidence, and remains above 85% for viewing angles up to 60°. The haze is 0.6% at normal incidence and 3.9% at 60°. [ABSTRACT FROM AUTHOR]

Published

2015

19. 2023-128: Window Film Day.

Subjects

WINDOW film, PROCLAMATIONS, PHYSIOLOGICAL effects of ultraviolet radiation

Abstract

The article focuses on the proclamation of Window Film Day in Illinois, recognizing the benefits of window film installation, including energy reduction, ultra-violet ray protection, job opportunities, and cost savings for consumers and businesses.

Published

2023

20. Experimental study on the dynamic behaviour of glass fitted with safety window film with a small-scale drop weight set-up.

Author

Van Dam, Sam, Pelfrene, Joren, De Pauw, Stijn, and Van Paepegem, Wim

Subjects

*WINDOW film, *GLASS construction, *SMALL scale system, *IMPACT testing of metals, *RETROFITTING, *WINDOWS, *SAFETY

Abstract

Retrofitting existing windows with a safety window film, to improve impact resistance, has been increasing along with the awareness of potential attacks on strategic buildings. However, current classification of glass panels is based solely on discrete outcomes of standardised tests without any instrumentation. In this paper, a versatile small-scale drop weight test set-up is conceived which is widely instrumented (accelerometer, force sensor, displacement sensor, high-speed visual observation) in order to gain more insight in the mechanical impact response of glass fitted with a safety window film. The elastic response, determined by the much higher stiffness of the glass, was very reproducible. The impacted surface (glass vs. film side) had a large influence, whereas the tensioned surface and laminated surface (air vs. tin side), do not. The film thickness only had an influence when the film was tested separately (without glass substrate) or in case of a soft impact of glass. [ABSTRACT FROM AUTHOR]

Published

2014

21. Polycyclic aromatic hydrocarbons on indoor/outdoor glass window surfaces in Guangzhou and Hong Kong, south China.

Author

Pan, Su-Hong, Li, Jun, Lin, Tian, Zhang, Gan, Li, Xiang-Dong, and Yin, Hua

Subjects

GLASS analysis, POLYCYCLIC aromatic hydrocarbon analysis, INDOOR air pollution research, AIR pollution, SURFACES (Physics) testing, WINDOWS

Abstract

Organic films were collected from indoor and outdoor window surfaces in two large cities in southern China, Guangzhou and Hong Kong, and analyzed to quantify the polycyclic aromatic hydrocarbons (PAHs). In the glass films, the highest concentration of total PAHs, predominantly phenanthrene, fluorene, fluoranthene, and pyrene, was found to be l400 ng/m2. The concentrations of PAHs in Guangzhou were usually higher than those in Hong Kong. In general, higher concentrations of PAHs on exterior window films in comparison with interior window films in both cities indicated that the outdoor air acted as a major source of pollution to the indoor environment. However, indoor air was a major source of some light-weight PAHs. Measurements made over time indicated that the growth rates of light-weight PAHs on window surfaces were fast at the beginning and then gradually reached a consistent level, whereas heavy-weight PAHs exhibited near-linear accumulation during the 40 days sampling period. [Copyright &y& Elsevier]

Published

2012

22. Case study: Energy savings from solar window film in two commercial buildings in Shanghai

Author

Yin, Rongxin, Xu, Peng, and Shen, Pengyuan

Subjects

*WINDOW film, *COMMERCIAL building energy conservation, *SOLAR heating, *CURTAIN walls, *SOLAR radiation, *COOLING loads (Mechanical engineering)

Abstract

Abstract: The objective of this study was to understand the energy savings from applying solar window films in a commercial building with large, curtain wall areas in Shanghai, China. eQUEST was used to simulate the annual building performance with and without the solar window film. The simulation model was calibrated against the measured monthly and daily electrical consumption. The simulation results indicated that two factors significantly influence the effect of the window film. These factors include the position of the installed window film and the configuration of the original glazing system. The effect of the window film on the performance of the curtain wall glazing system varies greatly, depending on the type of film and how it is applied. The film can decrease the shading coefficient and solar heat gain coefficient by 44% and 22% if applied on the outside and inside of the existing windows, respectively. For a double pane, low-E glazing system, the building cooling load through the windows on design day is reduced by 27.5% and 2.2% for outside and inside window films, separately. Adding the window film inside of the curtain wall was not effective because the increased window conductive heat transfer offsets the decreased cooling load from solar radiation. [Copyright &y& Elsevier]

Published

2012

23. Windows Offer Energy-Saving Choices.

Author

kovach, ronald

Subjects

ENERGY consumption, LIGHT, INTERIOR architecture, ELECTRIC lighting, WINDOW film

Abstract

The article discusses how windows can provide energy-saving options. Topics covered include how light entering a building illuminated an interior space but also provides heat, how natural light can lower the need for electric lighting and the heat generated by electric lighting, and the use of window film to lower cooling costs by reducing solar gain.

Published

2014

24. Film application system has high precision, throughput: PDS IG Equipment doubles window film throughput compared to the industry standard by using EtherCAT and PC-based control.

Author

Figy, James

Subjects

PROGRAMMABLE controllers, WINDOWS, ENGINEERING design, COMPUTER science, AUTOMATION software, WINDOW film

Abstract

The article offers information on PDS IG Equipment LLC Company has created a modular automated solution to protect insulating glass (IG) units of all sizes during manufacturing, shipping and installation.

Published

2020

25. Transparent radiative cooling films containing poly(methylmethacrylate), silica, and silver.

Author

Lei, Mao-Qin, Hu, Yu-Fan, Song, Ying-Nan, Li, Yue, Deng, Yong, Liu, Kai, Xie, Li, Tang, Jian-Hua, Han, Dong-Lin, Lei, Jun, and Li, Zhong-Ming

Subjects

*METHYL methacrylate, *SILVER, *SILICA, *AUTOMOBILES, *OPTICAL properties, *SILICA nanoparticles

Abstract

Window is the least energy-efficient part of buildings or cars; however radiative cooling, as an efficient energy-zero technology, is rarely used in window films of buildings or cars. Therefore, we in this work fabricated a transparent dual-layer film for daytime radiative cooling, which contained a layer of polymethyl methacrylate (PMMA) uniformly mixed with modified silica nanoparticles (SiO 2 NPs) and a layer of silver. The dispersion of the modified SiO 2 NPs in PMMA was notably improved through in-site grafting PMMA, which resulted in a high transparency of the radiative cooling film even at a high filling fraction of SiO 2 (20 wt%). Owing to the strong broadband IR absorbance/emittance (ε AW = 94.3%) and high sunlight reflectance (ρ ≈ 50%), the dual-layer film possessed a high cooling capacity and could achieve an average temperature drop of 1.4 °C than pure PMMA film in the daytime outdoor cooling measurement. In the simulated automotive cooling test, the dual-layer film cooled the interior space up to 6 °C below ambient temperature during peak solar hours. The excellent optical property and cooling capability exhibit a promising application of building and car windows for cooling their interior spaces. [Display omitted] • A transparent dual-layer film with broadband infrared emission for efficient daytime radiative cooling was developed. • It can be used as a window film due to its high transparency other than daytime radiative cooling performance. • This work further broadens the potential application of daytime radiative cooling technology toward high efficiency. [ABSTRACT FROM AUTHOR]

Published

2021

26. WINDOW FILM 101.

Subjects

SOLAR control films, SCHOOL facilities, ULTRAVIOLET radiation, EXECUTIVES, WINDOW film, SOCIETIES

Abstract

An interview with Darrell Smith, executive director of the International Window Film Association is presented. When asked to talk about the uses and benefits of window films for campus facilities, Smith explains that they offer up to 99% ultra-violet (UV) protection as a standard feature. He describes different types of window films and explains how safety/security window films controls the post-break behavior of broken fragments when the glass to which it is attached breaks.

Published

2013

27. Window Film.

Author

Plummer, Jeffrey

Subjects

WINDOW film, BUILDING performance, ENERGY conservation in buildings, VENTILATION, POLYETHYLENE terephthalate

Abstract

Window film can play a key role in improving any building's performance. For new construction and retrofit projects alike, window film helps control overall operating costs, balances building temperatures, and reduces the load on HVAC systems. It also tends to be a fraction of the cost of replacement windows. Diverse products exist, however-what should design professionals know about the options in terms of benefits and challenges? INSET: Installing Window Film. [ABSTRACT FROM AUTHOR]

Published

2017

28. Transparent window film with embedded nano-shades for thermoregulation.

Author

Park, Kyuin, Jin, Sungho, and Kim, Gunwoo

Subjects

*ENERGY conservation in buildings, *ELECTROCHROMIC windows, *BODY temperature regulation, *WINDOW shades, *SOLAR radiation, *ENERGY consumption, *DAYLIGHT

Abstract

• Vertically aligned Ni flakes (VANF) window film has 90% forward transparency. • Nanoscale Ni flakes array serve as shades to cut the high-angled incident sunlight. • VANF film can cut the maximum 73% of the sunlight. • VANF film was constructed by magnetically displacement of Ni flakes. Every year, more than 20% of the energy consumption in the United States and more than 10% of the global consumption is used towards HVAC (Heating, Ventilating, Air-Conditioning) systems in buildings. Although continued efforts in advancing renewable energy, efficient appliances, and smart building systems are desired, the most critical factors that cause extensive indoor energy consumption are thermal leakage and thermal waste generation. We demonstrate a smart window film that allows natural lighting with a clear view while blocking oblique incident sunlight to make the building interior cooler without using electricity or generating heat. Building upon the concept of, often overlooked, traditional window shades and privacy window films, we emphasize and elevate the application and impact of using magnetically arranged nanoscale material for energy conservation purpose in buildings. By embedding vertically aligned Ni flakes (VANF) in a polymer matrix film, nanoscale mirror array serve as shades to block the high-angled incident sunlight, blocking approximately 73% of total solar irradiance and bringing down the indoor temperature by 1.92 °C during the daytime in a model house while providing nearly 90% transparency. Global application was simulated by applying the respective solar angle and intensity at selected latitudes, indicating their potential. This passively energy-conserving smart film is a low cost, maintenance free, and simple product for users and easy-to-manufacture product for the industry. [ABSTRACT FROM AUTHOR]

Published

2021

29. Tinted Windows.

Author

GOMEZ, TOM

Subjects

TRUCK equipment, WINDOW film

Abstract

The article offers step-by-step instructions for installing window tint in truck.

Published

2013

30. Effective Thickness Measurement of Thin Film for Environmental Cell by Measuring Electron Transmissivity.

Author

Maeyama, Kazuhiro, Takaoka, Akio, and Ura, Katsumi

Abstract

To evaluate the performance of window films of an environmental cell in electron microscopy, the “effective thickness” is defined and measured. Latex balls are put on a film and scanned with an electron beam. The latex balls act as a standard in the measurement of electron transmission because its mass density and size are known. As the electron transmission depends on the measuring conditions such as the electron energy and the aperture angle, it is converted into an inherent parameter of films, the effective thickness, under the assumption that the absorption coefficient is proportional to the mass density. The error in measurement is about 6%. [ABSTRACT FROM PUBLISHER]

Published

1994

31. Thickness Characterization Toolbox for Transparent Protective Coatings on Polymer Substrates.

Author

Van Zele, Matthias, Watté, Jonathan, Hasselmeyer, Jan, Rijckaert, Hannes, Vercammen, Yannick, Verstuyft, Steven, Deduytsche, Davy, Debecker, Damien P., Poleunis, Claude, Van Driessche, Isabel, and De Buysser, Klaartje

Subjects

*PROTECTIVE coatings, *WINDOW film, *INORGANIC compounds, *SOL-gel processes, *EMISSIVITY

Abstract

The thickness characterization of transparent protective coatings on functional, transparent materials is often problematic. In this paper, a toolbox to determine the thicknesses of a transparent coating on functional window films is presented. The toolbox consists of a combination of secondary ion mass spectrometry and profilometry and can be transferred to other transparent polymeric materials. A coating was deposited on designed model samples, which were characterized with cross-sectional views in transmission and in scanning/transmission electron microscopy and ellipsometry. The toolbox was then used to assess the thicknesses of the protective coatings on the pilot-scale window films. This coating was synthesized using straightforward sol-gel alkoxide chemistry. The kinetics of the condensation are studied in order to obtain a precursor that allows fast drying and complete condensation after simple heat treatment. The shelf life of this precursor solution was investigated in order to verify its accordance to industrial requirements. Deposition was performed successfully at low temperatures below 100 °C, which makes deposition on polymeric foils possible. By using roll-to-roll coating, the findings of this paper are easily transferrable to industrial scale. The coating was tested for scratch resistance and adhesion. Values for the emissivity (ε) of the films were recorded to justify the use of the films obtained as infrared reflective window films. In this work, it is shown that the toolbox measures similar thicknesses to those measured by electron microscopy and can be used to set a required thickness for protective coatings. [ABSTRACT FROM AUTHOR]

Published

2018

32. CRYSTAL CLEAR.

Subjects

WINDOW film

Abstract

The article offers a review of scratch-resistant window films by LINTEC Corporation.

Published

2019

33. explore.

Subjects

WALLPAPER, WINDOW film, PROTECTIVE coatings, PRINTING industry

Abstract

The article offers review of several products including MD-W200 DécorMark WallPaper by Metamark; Envision Print Wrap Film SV480Cv3 by 3M; and Perforated Window Film by WithPrint.

Published

2018

34. 2015-150 National Window Film Day.

Subjects

SPECIAL days, WINDOW film, ENTREPRENEURSHIP

Abstract

The article focuses on National Window Film Day celebrated on April 30, 2015, in Illinois and mentions topics including energy saving in the U.S. through window film, protection of commercial drivers from solar rays, and providing entrepreneurial opportunities for small business people.

Published

2015

35. Tekra Reveals Low-Tack Window Film.

Subjects

WINDOW film

Abstract

The article offers a review of JetView Latex line of low-tack window film by Tekra.

Published

2018

36. We're Making Films Here.

Author

Langford, Cooper

Subjects

*WINDOW film, *WINDOW bird collisions, *BUILDINGS

Abstract

This article reports that the Convenience Group, a Toronto, Ontario-based distributor and dealer of window-film treatments for buildings of various sizes and uses, has developed window films to prevent bird strikes. The collision of birds and buildings is cited as the cause of death of as many as a million birds a year in Greater Toronto Area alone. Comments from Todd Vogelsberg and Colin MacLeod, Convenience Group spokesmen, on how their film technology has benefited birds are also presented.

Published

2013

37. Letting the Sun Shine In.

Author

Kranzler, Megan

Subjects

GRAPHIC arts, WINDOW film

Abstract

The article discusses the development of a custom window graphics by Optic Signs & Marketing for Begrand Fast Design, one of the leading graphic firms in Kelowna, British Columbia. It states that Begrand Fast desired new graphics for its office windows to render fresh appearance and other practical purposes. It adds that Optic formulated a double-layer printed window film using clear and white cut vinyl.

Published

2012

38. America's Big Rig Truckers Get The '10-4' From the DOT For Window Film Use In Cabs To Help Prevent Skin Cancer.

Subjects

SAFETY regulations, SKIN cancer prevention, WINDOW film, TRUCK drivers

Abstract

The article offers information on the clarification from the Department of Transportation's (DOT) Federal Motor Carrier Safety Administration on safety regulation which now allows the truck drivers to use window films on big rigs truck window. According to Darrell Smith, executive director of the International Window Film Association (IWFA) mentions use of window films for preventing skin cancer in the truck driver.

Published

2012

39. Window Film.

Author

Davis, Kent

Subjects

*WINDOW film, *WINDOW equipment, *SCHOOL building maintenance & repair, *ENERGY consumption, *LEADERSHIP in Energy & Environmental Design, *SCHOOLS, *SCHOOL safety

Abstract

The article focuses on the use of window film as a cost-effective choice due to its benefits for schools in the U.S. Window film is regarded as the most cost-efficient option in upgrading the widows of school buildings. It is proven to improve both the security and safety of the building. The benefits of this sustainable design including peak load reduction, natural daylight harnessing, and Leadership in Energy & Environmental Design (LEED) certification achievement.

Published

2011

40. Window Film.

Author

Mancini, Michael

Subjects

WINDOW film, SCHOOL buildings -- Security measures

Abstract

The article presents some reasons for school leaders and construction managers to consider the use of safety and security window film in school buildings.

Published

2016

41. got a question?

Subjects

WINDOW film, BIRDS

Abstract

The article offers information on the use of the window film called CollidEscape for the elimination of the reflection attracting the bird.

Published

2016

42. AVERY DENNISON INVESTS IN 'SMART GLASS'.

Subjects

INVESTMENTS, WINDOW film

Published

2017

43. Clear PET Window/Door Film simplifies graphics change out.

Subjects

WINDOW film, PROTECTIVE coatings, EQUIPMENT & supplies

Abstract

The article offers brief information on the ViziPrint Impress optically clear, printable polyester window film with suction technology, from Drytac Corp.

Published

2014

44. Shatter Resistant Window Film protects building occupants.

Subjects

WINDOW film, BUILDING protection, EQUIPMENT & supplies

Abstract

The article offers brief information on Blast Armor shatter resistant window film from Surface Armor LLC.

Published

2014

45. Window Film and Affordable Sustainability.

Author

Smith, Darrell

Subjects

WINDOW film, SUSTAINABLE architecture, GREEN technology, ECOLOGICAL houses, CONSTRUCTION materials, PROTECTIVE coatings, ECONOMICS, EQUIPMENT & supplies

Abstract

The article discusses findings of homebuilders report which reveals the increase in demand for sustainability initiatives for green building materials among industries in the U.S. by 2020. The report outlines the challenges for construction firms on considering cost of renovation, maintenance of home exterior and interior appearance and custom-manufactured windows. The report also highlights the benefits of real sustainability for window films.

Published

2016

46. Honk If You Can Explain Turkey’s Position on Tinted Car Windows.

Author

Gauthier-Villars, David

Subjects

*MOTOR vehicle drivers, *WINDOW film, *AUTOMOBILE windshields & windows, *FINES (Penalties)

Published

2017

47. Fenestration Australia conference gets even bigger.

Subjects

MEETINGS, WINDOW film, SURFACE finishing, SOCIETIES

Abstract

The article offers information on two conferences to be held in Australia in 2013 including the Fenestration Australia conference of the Australian Window Association (AWA) in Canberra, Australian Capital Territory from October 3-5 and the Glass Australia: AGGA National Conference in Queensland fFrom September 19-21.

Published

2013

48. NEW PRODUCTS.

Subjects

POLYESTER fibers, WINDOW film, COMPUTER printers

Abstract

The article evaluates several products including the SoftSign woven polyester from Roland DGA Corp., the ViziPrint polyester window film from Drytac Canada Inc. and the ValueJet 1624W printer from Mutoh America Inc.

Published

2013

49. California Recognizes Window Film.

Subjects

WINDOW film, BUILDING code revision

Abstract

The article reports on the changes to the state building code in the U.S. starting January 2014 with the inclusion of window film, which is being recognized by the California Energy Commission as a building material that offers energy efficiency advantages.

Published

2012

50. GAM Custom WindowGrip.

Subjects

WINDOW film

Abstract

The article offers brief information on the Custom WindowGrip adhesive-backed, optically clear window film from GAM Products Inc.

Published

2012