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Sorption and transport of water vapour in Acrylic Paints/Topçuoğlu, Özge. Alsoy Altınkaya, Sacide January 2004 (has links) (PDF)
Thesis (Master)--İzmir Institute of Technology, İzmir, 2004. / Includes bibliographical references (leaves. 70-73).
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A thin film oxygen sensor for the study of insect flight /McGraw, Christina M. January 2004 (has links)
Thesis (Ph. D.)--University of Washington, 2004. / Vita. Includes bibliographical references (leaves 185-189).
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“Science and Art. The Painted Surface” by Antonio Sgamellotti, Brunetto Giovanni Brunetti y Costanza Miliani (Eds.) / “Science and Art. The Painted Surface” de Antonio Sgamellotti, Brunetto Giovanni Brunetti y Costanza Miliani (Editores)Gonzales Gil, Patricia 25 September 2017 (has links)
Repaso de algunos de los aspectos más destacados e interesantes del libro “Science and Art. The Painted Surface”, una obra de contenido multidisciplinar (ciencia, arte e historia) cuya lectura recomendamos. / Short review of the most important and interesting sections of the multidisciplinary science book that we strongly recommend: "Science and Art. The Painted Surface”.
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Analysis of White Latex Paints using Laser Induced Breakdown Spectroscopy for Forensic ApplicationsZwilling, Melissa 09 September 2014 (has links)
The analysis of white latex paint is a problem for forensic laboratories because of difficulty in differentiation between samples. Current methods provide limited information that is not suitable for discrimination. Elemental analysis of white latex paints has resulted in 99% discriminating power when using LA-ICP-MS; however, mass spectrometers can be prohibitively expensive and require a skilled operator. A quick, inexpensive, effective method is needed for the differentiation of white latex paints.
In this study, LIBS is used to analyze 24 white latex paint samples. LIBS is fast, easy to operate, and has a low cost. Results show that 98.1% of variation can be accounted for via principle component analysis, while Tukey pairwise comparisons differentiated 95.6% with potassium as the elemental ratio, showing that the discrimination capabilities of LIBS are comparable to those of LA-ICP-MS. Due to the many advantages of LIBS, this instrument should be considered a necessity for forensic laboratories.
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Laboratory Studies To Field Evaluation : Remediation Of Polychlorinated Biphenyl Contaminated Painted Surfaces Through The Use Of Activated Metal Treatment SystemsSaitta, Erin Kristen 01 January 2010 (has links)
Polychlorinated Biphenyls (PCBs) are a group of 209 congeners that are regulated under the Toxic Substance Control Act. They enter the environment as a result of industrial processes and can travel long distances. PCBs are environmentally persistent and bioaccumulate in animal populations. Painted surfaces are a common point source for PCBs and there are few options for remediating structures painted with PCB-contaminated paint. Removal of the paint can often spread contamination and disposing or burning of large structures is expensive. Experiments employing reductive dehalogenation through the use of a bimetal have shown that PCBs can be degraded in mild laboratory conditions. This dissertation describes the process of developing an application media that will enable the degradation process reported in literature to be used in a field application. An environmentally friendly reaction environment had to be established as well as the treatment‟s operating parameters. In collaboration with researchers at the National Aeronautics Space Administration (NASA), Kenney Space Center (KSC), researchers at the University of Central Florida (UCF) developed a bimetallic treatment system (BTS) that can remove and degrade PCBs from painted surfaces. The technology was evaluated during a field demonstration at a decommissioned Department of Defense facility in Badger, Wisconsin. Samples of treatment paste, paint and concrete were analyzed over a three week period. The PCB concentrations in both the paint and concrete dropped dramatically as a result of the demonstration, and in many instances, were lowered below the EPA action limit of 50ppm. In the laboratory, additional studies were conducted to further the degradation in the treatment system. Through this process, a novel degradation system was established containing zero-valent magnesium and ethanol acidified with acetic acid. The use of acidified ethanol permitted the degradation to occur with iv just magnesium powder and eliminated the use of a bimetal and therefore palladium. The technology was incorporated into a modified treatment system termed Activate Metal Treatment System (AMTS). The AMTS was used on samples from a second field site where paint chips from an manufacturing warehouse in New York state were degraded to thousands of mg/kg (ppm) below their starting concentrations.
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Development and Implementation of Dispersion Phase Diagrams (DPDs) for Four Different Hydrophobically Modified Ethoxylated Urethane (HEUR) Based Acrylic Paint SystemsBell, Tyler J. 01 June 2014 (has links) (PDF)
Latex polymers serve as binders in a wide range of architectural paints and coatings. A latex is an aqueous colloidal dispersion of polymer particles that when dried above the polymer’s film formation temperature coalesces into a dry polymer film (Dragnevski, Routh, Murray, & Donald, 2010). The other main components of paint include associative thickeners, surfactants, pigments and fillers with the thickener being the primary area of focus for this study.
The relatively simple system of latex, associative thickener and surfactant has been studied extensively. These studies have shown the mechanism of thickening for the associative thickener, and surfactant effects on both latex and thickener; however, there are few studies conducted for a fully-formulated system. The introduction of pigments, fillers, coalescing aids, functional amines, and other additives greatly increases the difficulty of research in this area. The addition of many additives ultimately affects the stability and physical properties of the end-product. Phase separation of the paints, also called syneresis, is a major concern of paint formulators because paints need to be as stable when left sitting in a paint-can for an extended period of time. The goal of this project is to essentially probe the areas of phase separation for some hydrophobically modified ethoxylated urethane (HEUR) thickened paint systems that are very similar to commercially used paint formulations. The probing of these phase separated regions includes the careful preparation of each paint sample, physical property testing, as well as new experimental development in the area of syneresis, rheology, followed by statistical analysis of data.
Dispersion phase diagrams (DPDs) were first reported by Kostansek (2003) in a simple system of HEUR thickener, surfactant, and latex. They are a plot of the three possible dispersion states for an associative thickened system. These states include bridging flocculation which occurs at low levels of HEUR in which 50% or less of the latex particle surface is covered by the associative thickener. The second state is a good dispersion, which does not show any signs of flocculation. The third state is a mode of flocculation called depletion flocculation that occurs when the particle surfaces of the system are covered mostly with surfactant. The free associative polymer in the system is excluded from the free space in between particles, and the latex particles form aggregates (Otsubo, 1995). The three dispersion phases are then plotted with wt% HEUR on the continuous phase versus wt% surfactant on the continuous phase. The ideal end product for this project would be to use various combinations of latex, surfactant, and associative thickeners (ATs) to create multiple DPDs, which then could be used to troubleshoot formulations and samples in which flocculation is present.
Each formulation was made using a thickening package of two non-ionic HEURs: a low-shear and high-shear thickener. Surfactant additions were made after the HEUR in small incremental amounts. Each DPD would consist of one surfactant, the previously stated combination of HEURs, and an all-acrylic latex. Three different surfactants were used in the study: two non-ionic surfactants, and an anionic surfactant. The first non-ionic surfactant was not studied in full as the other two surfactants due to time constraints. Two different all-acrylic latexes were used which varied in the particle size. The first latex studied, Acrylic-A, has an average particle size of 105 nm, and the second latex was Acrylic-B with 150 nm particle size. The TiO2 used in each DPD was surface treated and used in powder form. By the end of the project, 4 full-scale DPDs were made with the following combinations: Acrylic-A and a non-ionic surfactant, Acrylic-A and an anionic surfactant, Acrylic-B and a non-ionic surfactant, and Acrylic-B and an anionic surfactant. From these DPDs the mechanistic interactions of various components of the system could be made. The DPDs could also be used to troubleshoot problematic paints and even hypothesize new formulations.
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Determination of the Relative Activity of Selected Paint Stripping Components with Epoxy and Polyurethane Aerospace CoatingsNyarko, Ebenezer 08 November 2011 (has links)
No description available.
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PAINT MANAGER FOR 2008-2009 ACADEMIC YEAR AND PAINT CHARGE FOR THREE SISTERS AND TWELFTH NIGHTShelton, Rebecca S. 08 May 2009 (has links)
No description available.
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Influência da Formulação das tintas de base acrílica como barreira contra a penetração de agentes agressivos nos concretos. / Sem título em inglês.Uemoto, Kai Loh 18 August 1998 (has links)
Uma forma de reduzir a difusão de agentes agressivos para o interior do concreto é através da aplicação de sistemas de pintura, que funcionam como uma barreira ao ingresso destes agentes. A difusão dos agentes através de películas de pintura está relacionada com a sua porosidade, que, por sua vez, depende principalmente do teor e estrutura química da resina e do teor e morfologia dos pigmentos. Esta tese teve por objetivo principal demonstrar que, com uma formulação adequada, as tintas à base de resina acrílica podem ser utilizadas como barreira de proteção eficiente contra a penetração de água e vapor de água, anidrido carbônico (C\'O IND.2\') e íons cloreto, em estruturas de concreto ou em outros tipos de substratos. As formulações das tintas foram definidas em função do tipo de acabamento final e obtidas pela variação da relação pigmento/resina. Foram realizados ensaios de caracterização nas tintas líquidas e nas resinas utilizadas na preparação das tintas estudadas, bem como ensaios de desempenho nas películas livres e em concretos pintados, que apresentavam resistência à compressão de 20 e 40 Mpa. Para a medida da resistência à penetração dos agentes agressivos no concreto, foram desenvolvidos ensaios acelerados, com base em metodologias de avaliação de argamassas e concretos, adaptados a substratos pintados. A microestrutura das películas de tinta foi correlacionada com as propriedades físicas das películas e dos concretos pintados. Os resultados obtidos mostram a importância da formulação das tintas nos fenômenos de transporte e, além disso, mostram que tintas acrílicas e as estirenoacrílicas com diferentes temperaturas vítreas (Tg) apresentam comportamento físico distinto. Tintas de acabamento semi-brilho conferem boa proteção contra a penetração de agentes agressivos no concreto, enquanto que as de acabamento fosco apresentam função mais decorativa do que de proteção. / The diffusion of aggressive agents into concrete can be reduced by the application of painting systems which work as barriers to these agents. The capacity of these agents to pass through the paint is related to its porosity, which in turn is mainly dependent on the structure and content of the resin and on the morphology and content of the pigments. The main objective of this thesis is to demonstrate that with adequate formulation, paints based on acrylic resin polymers can be used as efficient barriers against the penetration of water and water vapour, carbon dioxide and chloride in concrete structures or any other porous substrate. Paint formulations were defined based on the final appearance (gloss) and obtained by varying the pigmentbinder ratio. Characterization tests on the liquid paints and polymers prepared for this study were done, as were performance tests on free dry films and painted concrete substrates, with compressive strength of 20 MPa and 40 MPa. In order to determine the effectiveness of paint in inhibiting the diffusion of aggressive agents into concrete, accelerated tests based on methodologies for the evaluation of mortars and concrete were developed. The films microstructures were correlated with their physical properties and with painted concrete. The results showed that the formulation of the paints has a important effect on the transport mechanism and also that acrylic and styrene-acrylic paints with different transition temperatures (Tg) do not present the same physical behavior. Glossy paints presented a high level of protection against the penetration of aggressive agents whereas matte finishes offered a more aesthetic function rather than protection.
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Application of linear programming in product mix decisions in paint industry.January 1989 (has links)
Yan Tin-yau Howard. / Thesis (M.B.A.)--Chinese University of Hong Kong, 1989. / Bibliography: leaf 108.
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