Subtitle Ultraviolet
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This book is a comprehensive source for technical information regarding ultraviolet germicidal irradiation (UVGI) and its application to air and surface disinfection for the control of pathogens and allergens. The primary focus is on airborne microbes and surface contamination applications for hospitals, commercial facilities, and residential homes.
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PHOENIX, June 10, 2020 /PRNewswire/ -- Honeywell (NYSE: HON) and Dimer LLC today announced a partnership to bring an ultraviolet cleaning (UVC) system to airlines that, when properly applied, significantly reduces certain viruses and bacteria on airplane cabin surfaces. The Honeywell UV Cabin System can treat an aircraft cabin in less than 10 minutes for just a few dollars per flight for midsize to large airline fleets.
UVC has been used in hospitals, air and water filters, microbiology labs, and other applications. Most household lamps have between 500 and 700 nanometers (nm) of ultraviolet light. In comparison, UVC refers to ultraviolet light with wavelengths between 200 and 280 nm.
Digital HD with UltraViolet allows fans to watch a digital version of their movie or TV show anywhere, on their favorite devices. Digital HD with UltraViolet is included with the purchase of specially marked Blu-ray discs. Digital HD with UltraViolet allows consumers to instantly stream and download movies and TV shows to TVs, computers, tablets and smartphones through UltraViolet retail services like CinemaNow, Flixster, Target Ticket, VUDU and more. For more information on compatible devices go to wb.com/ultravioletdevices. Consult an UltraViolet Retailer for details and requirements and for a list of HD-compatible devices.
The research was carried out to explore the effect of silica nanoparticles (NPs) on the ultraviolet aging properties of bitumen. In this study, characterization of NPs-modified Bitumen using scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FT-IR), and ultraviolet-visible spectrophotometer were investigated. In addition, the properties of the modified bitumen considered by conventional mechanical tests. The results of this study indicated that the bitumen physical properties were influenced by silica NPs additives. Comparing oxidation degree and carbonyl in index NPs-modified bitumen samples indicates that the resistance of bitumen to ultraviolet aging is considerably improved with increase nanoparticles content, which led to the improvement in the reflection property in bitumen. Further, NPs improved the rutting resistance, viscosity, and threshold temperatures of aging bitumen, while decreasing the viscosity aging.
N2 - The research was carried out to explore the effect of silica nanoparticles (NPs) on the ultraviolet aging properties of bitumen. In this study, characterization of NPs-modified Bitumen using scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FT-IR), and ultraviolet-visible spectrophotometer were investigated. In addition, the properties of the modified bitumen considered by conventional mechanical tests. The results of this study indicated that the bitumen physical properties were influenced by silica NPs additives. Comparing oxidation degree and carbonyl in index NPs-modified bitumen samples indicates that the resistance of bitumen to ultraviolet aging is considerably improved with increase nanoparticles content, which led to the improvement in the reflection property in bitumen. Further, NPs improved the rutting resistance, viscosity, and threshold temperatures of aging bitumen, while decreasing the viscosity aging.
AB - The research was carried out to explore the effect of silica nanoparticles (NPs) on the ultraviolet aging properties of bitumen. In this study, characterization of NPs-modified Bitumen using scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FT-IR), and ultraviolet-visible spectrophotometer were investigated. In addition, the properties of the modified bitumen considered by conventional mechanical tests. The results of this study indicated that the bitumen physical properties were influenced by silica NPs additives. Comparing oxidation degree and carbonyl in index NPs-modified bitumen samples indicates that the resistance of bitumen to ultraviolet aging is considerably improved with increase nanoparticles content, which led to the improvement in the reflection property in bitumen. Further, NPs improved the rutting resistance, viscosity, and threshold temperatures of aging bitumen, while decreasing the viscosity aging.
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Laser micromachining is now a common method of surface modification and machining; utilizing a broad spectrum of wavelengths, wave forms, and pulse durations. The most accurate bulk geometric modification is achieved by the use of ablation via the application of short wavelengths to deliver large photons for absorption in minimal skin depth. Many lasers can generate beams in the ultraviolet region. Excimer lasers are one example of a native ultraviolet laser that exhibit many key beneficial attributes over competing laser sources. A number of micromachining techniques have been developed to utilize these specific source attributes. The most interesting of these can deliver the ability to machine 2.5 dimensional features in arrays across the surface of a substrate. Despite the notable virtues of these techniques for micromachining applications, these processes suffer four major limitations: resolution is diffraction limited; the features are limited to 2.5-D; feature walls always have a draft angle; and large quantities of nanoscale debris are ejected during the machining process. A novel technique that applies a closed (optically defined) thick-flowing film of water across the substrate surface during pulsed laser ablation displays attributes that combine to answer two of the weaknesses of the nonliquid immersed pulsed laser ablation techniques: ablation generated debris is mitigated and feature walls can be made with steeper gradients; which, when combined with the reduction of surface waviness and modification to ablation rate reported, can implement an increase in feature resolution. Moreover, this technique allows the user to finely control their process while maintaining constant laser parameters and machine transparent, reflective, or resilient materials via the action of plume shockwave etching.
N2 - Laser micromachining is now a common method of surface modification and machining; utilizing a broad spectrum of wavelengths, wave forms, and pulse durations. The most accurate bulk geometric modification is achieved by the use of ablation via the application of short wavelengths to deliver large photons for absorption in minimal skin depth. Many lasers can generate beams in the ultraviolet region. Excimer lasers are one example of a native ultraviolet laser that exhibit many key beneficial attributes over competing laser sources. A number of micromachining techniques have been developed to utilize these specific source attributes. The most interesting of these can deliver the ability to machine 2.5 dimensional features in arrays across the surface of a substrate. Despite the notable virtues of these techniques for micromachining applications, these processes suffer four major limitations: resolution is diffraction limited; the features are limited to 2.5-D; feature walls always have a draft angle; and large quantities of nanoscale debris are ejected during the machining process. A novel technique that applies a closed (optically defined) thick-flowing film of water across the substrate surface during pulsed laser ablation displays attributes that combine to answer two of the weaknesses of the nonliquid immersed pulsed laser ablation techniques: ablation generated debris is mitigated and feature walls can be made with steeper gradients; which, when combined with the reduction of surface waviness and modification to ablation rate reported, can implement an increase in feature resolution. Moreover, this technique allows the user to finely control their process while maintaining constant laser parameters and machine transparent, reflective, or resilient materials via the action of plume shockwave etching.
AB - Laser micromachining is now a common method of surface modification and machining; utilizing a broad spectrum of wavelengths, wave forms, and pulse durations. The most accurate bulk geometric modification is achieved by the use of ablation via the application of short wavelengths to deliver large photons for absorption in minimal skin depth. Many lasers can generate beams in the ultraviolet region. Excimer lasers are one example of a native ultraviolet laser that exhibit many key beneficial attributes over competing laser sources. A number of micromachining techniques have been developed to utilize these specific source attributes. The most interesting of these can deliver the ability to machine 2.5 dimensional features in arrays across the surface of a substrate. Despite the notable virtues of these techniques for micromachining applications, these processes suffer four major limitations: resolution is diffraction limited; the features are limited to 2.5-D; feature walls always have a draft angle; and large quantities of nanoscale debris are ejected during the machining process. A novel technique that applies a closed (optically defined) thick-flowing film of water across the substrate surface during pulsed laser ablation displays attributes that combine to answer two of the weaknesses of the nonliquid immersed pulsed laser ablation techniques: ablation generated debris is mitigated and feature walls can be made with steeper gradients; which, when combined with the reduction of surface waviness and modification to ablation rate reported, can implement an increase in feature resolution. Moreover, this technique allows the user to finely control their process while maintaining constant laser parameters and machine transparent, reflective, or resilient materials via the action of plume shockwave etching. 59ce067264
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