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DNA as a Natural Flame Retardant Additive for Commercial PolymersTowslee, Jenna Harris 05 June 2017 (has links)
No description available.
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Void-Free Flame Retardant Phenolic Networks: Properties and ProcessabilityTyberg, Christy Sensenich 04 April 2000 (has links)
Phenolic resins are important components of the composite industry because of their excellent flame retardance and cost effectiveness. However, the common procedure for curing phenolic novolac resins uses hexamethylenetetramine (HMTA) and releases volatiles during the cure, which produce networks with numerous voids. This results in materials that lack the toughness necessary for structural applications. An alternative to curing with HMTA is to crosslink the pendant phenolic groups in the novolac resin with epoxy reagents. This reaction proceeds by nucleophilic addition without the release of any volatiles, thereby creating a void-free network. Flame retardance can be achieved by using an excess of the phenolic component. Network densities can also be controlled to maximize both toughness and stiffness by tailoring the stoichiometry of the reagents.
Structure-property relationships of phenolic/epoxy networks have been investigated. Glass transitions decreased, and toughness increased, as the phenolic content in the network was increased. Both results could be correlated to the decrease in network densities along this series, which was investigated by measuring the rubbery moduli well above T<sub>g</sub>. Fracture toughness of phenolic/epoxy networks measured by K<sub>1c</sub> reached 1.03 MPa-m<sup>1/2</sup>, compared with an epoxy control with K<sup>1c</sup> = 0.62 MPa-m<sup>1/2</sup> and phenolic control with K<sub>1c</sub> = 0.16 MPa-m<sup>1/2</sup>. In addition, an increase in novolac content improves flame retardance rather dramatically. The peak heat release rate (PHRR) dropped from 1230 kW/m²⁺ for the epoxy control to 260 kW/m²⁺ for the phenolic/epoxy networks, which approached that of a phenolic resol (PHRR = 116 kW/m²⁺). Phenolic/epoxy composite flame retardance also showed significant improvement when compared to epoxy composites.
Melt processability of phenolic/epoxy composites has been achieved through the use of latent nucleophilic initiators. Kinetics of the phenolic/epoxy cure reactions with latent initiators demonstrated that monomeric phosphine initiators yielded faster cure reactions as compared to polymeric initiators. These latent initiators allow composite melt processing, such as prepregging or pultrusion, without premature curing. In addition, cure cycles can be reduced from 4 hours to less than 30 minutes. Composites prepared using these latent initiators had toughness exceeding that of epoxy composites and fatigue limits significantly higher than those of vinyl ester composites.
<i>Vita removed, June 10, 2013, per author's request. GMc</i> / Ph. D.
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Oxidative DNA Damage and DNA Binding Induced by 2, 2-Bis (Bromomethyl)-1, 3-Propanediol: Possible Mode of Action Implicated in its CarcinogenicityKong, Weixi January 2012 (has links)
The studies in this dissertation research were conducted to investigate the possible mode of action by which a brominated flame retardant, 2, 2-Bis (bromomethyl)-1, 3-propanediol (BMP) causes genotoxicity. Binding of BMP to DNA and BMP induced DNA strand breaks were investigated in SV-40 immortalized human uroepithelial cells (UROtsa) as an in vitro model for the bladder (a tissue that developed cancer after two year exposure to BMP in rodents). Results showed binding of [¹⁴C]-BMP equivalents to DNA increased with increased exposure time and concentration of [¹⁴C]-BMP. Comet analysis indicated BMP significantly increased the extent of DNA strand breaks at 1 and 3 h of incubation. However, strand breaks were repaired by 6 h of incubation. The DNA damaging effects of BMP at 1 h was concentration dependent. Compared with the parent compound, BMP-glucuronide (the predominant metabolite of BMP) bound less to DNA and produced less DNA strand breaks in UROtsa cells. Evidences that the BMP induced strand breaks were the result of an oxidative stress include: a concentration and time dependent increase in ROS generation; increased expression of Nrf2 and HSP70; complete attenuation of BMP induced DNA strand breaks by the antioxidant, NAC; and the presence of the oxidized base 8-OHguanine. UROtsa cells appear to be target cells for BMP because, as compared to rat hepatocytes (non-target cells), these cells lack the ability to detoxify BMP via glucuronidation and also because they are deficient in glutathione, a major intracellular antioxidant molecule. Both of these genotoxic events, DNA binding and oxidative DNA damage may, in part, contribute to BMP carcinogenicity observed in rodents. The relevance of current results to humans is remained to be established.
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The Role of Dopaminergic Systems in the Neurobehavioral Teratology of Organophosphates in ZebrafishOliveri, Anthony January 2016 (has links)
<p>Background: Organophosphate (OP) pesticides are well-known developmental neurotoxicants that have been linked to abnormal cognitive and behavioral endpoints through both epidemiological studies and animal models of behavioral teratology, and are implicated in the dysfunction of multiple neurotransmitters, including dopamine. Chemical similarities between OP pesticides and organophosphate flame retardants (OPFRs), a class of compounds growing in use and environmental relevance, have produced concern regarding whether developmental exposures to OPFRs and OP pesticides may share behavioral outcomes, impacts on dopaminergic systems, or both. Methods: Using the zebrafish animal model, we exposed developing fish to two OPFRs, TDCIPP and TPHP, as well as the OP pesticide chlorpyrifos, during the first 5 days following fertilization. From there, the exposed fish were assayed for behavioral abnormalities and effects on monoamine neurochemistry as both larvae and adults. An experiment conducted in parallel examined how antagonism of the dopamine system during an identical window of development could alter later life behavior in the same assays. Finally, we investigated the interaction between developmental exposure to an OPFR and acute dopamine antagonism in larval behavior. Results: Developmental exposure to all three OP compounds altered zebrafish behavior, with effects persisting into adulthood. Additionally, exposure to an OPFR decreased the behavioral response to acute D2 receptor antagonism in larvae. However, the pattern of behavioral effects diverged substantially from those seen following developmental dopamine antagonism, and the investigations into dopamine neurochemistry were too variable to be conclusive. Thus, although the results support the hypothesis that OPFRs, as with OP pesticides such as chlorpyrifos, may present a risk to normal behavioral development, we were unable to directly link these effects to any dopaminergic dysfunction.</p> / Dissertation
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Layer-by-Layer Nanocoatings with Flame Retardant and Oxygen Barrier Properties: Moving Toward Renewable SystemsLaufer, Galina 1985- 14 March 2013 (has links)
Numerous studies have focused on enhancing the flame retardant behavior of cotton and polyurethane foam. Some of the most commonly used treatments (e.g., brominated compounds) have raised concerns with regard to toxicity and environmental persistence. These concerns have led to significant research into the use of alternative approaches, including polymer nanocomposites prepared from more environmentally benign nanoparticles. These particles migrate to the surface from the bulk during fire exposure to form a barrier on the surface that protects the underlying polymer. This theory of fire suppression in bulk nanocomposites inspired the use of layer-by-layer (LbL) assembly to create nanocoatings in an effort to produce more effective and environmentally-benign flame retardant treatments.
Negatively charged silica nanoparticles of two different sizes were paired with either positively charged silica or cationic polyethylenimine (PEI) to create thin film assemblies. When applying these films to cotton fabric, all coated fabrics retained their weave structure after being exposed to a vertical flame test, while uncoated cotton was completely destroyed. Micro combustion calorimetry confirmed that coated fabrics exhibited a reduced peak heat release rate, by as much as 20% relative to the uncoated control. Even so, this treatment would not pass the standard UL94 vertical flame test, necessitating a more effective treatment.
Positively- charged chitosan (CH) was paired with montmorillonite (MMT) clay to create a renewable flame retardant nanocoating for polyurethane foam. This coating system completely stops the melting of a flexible polyurethane foam when exposed to direct flame from a butane torch, with just 10 bilayers (~ 30 nm thick). The same coated foam exhibited a reduced peak heat release rate, by as much as 52%, relative to the uncoated control. This same nanobrick wall coating is able to impart gas barrier to permeate plastic film.
Multilayered thin films were assembled with "green" food contact approved materials (i.e., chitosan, polyacrylic acid (PAA) and montmorillonite clay). Only ten CH-PAA-CH-MMT quadlayers (~90 nm thick) cause polylactic acid (PLA) film to behave like PET in terms of oxygen barrier. A thirty bilayer CH-MMT assembly (~100 nm thick) on PLA exhibits an oxygen transmission rate (OTR) below the detection limit of commercial instrumentation (<= 0.005 cm^3/(m^2*day*atm)). This is the same recipe used to impart flame retardant behavior to foam, but it did not provide effective FR to cotton fabric, so a very different recipe was used.
Thin films of fully renewable electrolytes, chitosan and phytic acid (PA), were deposited on cotton fabric in an effort to reduce flammability through an intumescent effect. Altering the pH of aqueous deposition solutions modifies the composition of the final nanocoating. Fabrics coated with highest PA content multilayers completely extinguished the flame and reduced peak heat release (pkHRR) and total heat release of 60% and 76%, respectively. This superior performance is believed to be due to high phosphorus content that enhances the intumescent behavior of these nanocoatings.
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Functional nanocomposite fibers through electrospinning : flame retardant and superhydrophobicWu, Hao 26 April 2013 (has links)
Flame retardant (FR) intumescent additives and montmorillonite (MMT) organoclay incorporated nylon-6 nanocomposite (FR-NC-PA6) fibers with a diameter of about 200 nm were fabricated by electrospinning. Before electrospinning, dispersion and exfoliation of the FR additive and MMT in nylon-6 were achieved by twin-screw extrusion. Tensile, TGA and UL-94 flammability tests were first performed using injection-molded bulk samples. The tensile modulus of FR-NC-PA6 was 45% higher than that of neat PA6, but tensile strength and elongation at break decreased by 23% and 98.7%, respectively. It is worth noting that although the TGA results show that FR-NC-PA6 has a slightly earlier decomposition temperature than neat PA6, it did not drip under fire and had the best rating (V-0) in UL 94 test, while neat PA6 is only rated as V-2. SEM and EDX of char residues after the UL 94 test clearly show the oxygen-rich protective char layer on the surface. These results indicate the advantage of using clay and FR additive in bulk-form PA6.
Flammability of electrospun nanocomposite fibers was characterized by Micro-combustion calorimeter (MCC), a small-scale test to screen flammability of polymer materials. The MCC results show that the nano-fillers in both bulk and fiber form could effectively improve flame retardant properties of the material. Electrospun fibers had similar combustion properties as bulk materials.
In addition to FR applications, superhydrophobic surface was another area that was explored using the electrospun nanocomposite fibers. Static water contact angle (WCA) test showed that samples with 5wt% clay even without plasma treatment greatly improved the WCA to 140°, probably due to the barrier effect of nanoclay platelets. Plasma treatment was used to modify the surface energy, further improving WCA to as high as 160°. However, fiber structure was partially etched away when overexposed to the plasma. This etching effect increased the surface roughness. Clay incorporated samples had higher level of surface roughness and better resistance to plasma etching compared to neat nylon 6. / text
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Développement d’une stratégie analytique dédiée aux esters organophosphorés. Contribution à l’évaluation de l’exposition alimentaire de l’homme à ces contaminants ré-émergents via l’alimentationHalloum, Wafaa 31 January 2017 (has links)
De récentes études ayant pointé les potentiels effets de perturbation endocrinienne d’esters organophosphorés (OPE), dont l’utilisation globale en tant que retardateurs de flamme et plastifiants est en constante augmentation, font apparaître le besoin d’une évaluation approfondie des risques. Malgré des efforts passés pour l'analyse de ces contaminants ré-émergents dans divers compartiments environnementaux abiotiques, peu d'informations sont disponibles pour le biote, en partie en raison de l'absence de stratégie analytique efficace. La thèse visait d'abord à développer une stratégie d'analyse robuste dédiée à l’analyse d’une large gamme d'OPE à l’état de traces dans le poisson et d’autres denrées alimentaires. La stratégie retenue est basée sur l'extraction liquide sélective sous pression et la chromatographie par perméation de gel. La détection a été réalisée par chromatographie en phase gazeuse couplée à la spectrométrie de masse en tandem, avec ionisation par impact électronique ou chimique à pression atmosphérique, cette dernière étant plus spécifique et innovante. Le second objectif visait à produire des données de prévalence originales et utiles à l'évaluation de l'exposition en France. Des jeux de poissons et de denrées emballées ont présenté des niveaux totaux inférieurs à 10 et jusqu'à 100 ng/g pf, respectivement. Une première exploitation des données sur poissons en termes d'évaluation quantitative de risque pour l’Homme a dévoilé des ratios de risques faibles au regard de données toxicologiques disponibles. Néanmoins, des données complémentaires sur l'exposition et la toxicologie seront indispensables pour conclure quant aux implications en santé publique. / As recent studies highlighted that several organophosphate esters (OPEs) exhibit potential endocrine disrupting effects, in-depth risk assessment is required, when their global use as flame retardants and plasticizers is considerably increased. Despite previous efforts on the analysis and exposure assessment of these re-emerging contaminants in various abiotic environmental compartments, still limited information is available in biota samples, partly due to the lack of efficient analytical strategies. The thesis aimed first at developing a robust analytical strategy dedicated to the determination of a wide range of OPEs at trace levels in fish and other foodstuffs. The developed strategy involved selective pressurized liquid extraction with Florisil® as lipid sorbent, followed by further purification step by gel permeation chromatography. The extract analysis was then performed by gas chromatography coupled to tandem mass spectrometry fitted with electron impact or atmospheric pressure chemical ionisation mode, the latter being a more specific and innovative approach. The second aim was to apply the developed strategy to produce original occurrence data that can be useful for exposure assessment at the French level. Fish sample sets exhibited levels below 10 ng/g fw while packaged foodstuffs presented levels up to 100 ng/g fw. A first interpretation of these data in terms of dietary human quantitative risk assessment through fish consumption tended to show low risk ratios in connection with available toxicological data. However, additional exposure and toxicological data is required before any conclusions regarding public health implication can be drawn
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Laser-pyrolysis and flammability testing of graphite flame-retarded polyethyleneMbonane, Cebolenkosi January 2018 (has links)
The fire behaviour of linear low-density polyethylene composites containing 10 wt.% of different carbon-based fillers was studied. Cone calorimeter tests conducted at a heat flux of 35 kW_m_2 showed that the expandable graphite sample reduced the peak heat release rate by about 50 % while the flake graphite increased the ignition time by about 80 %. Pyrolysis combustion flow calorimetry results were practically identical for all composites. This reveals shortcomings of this bench-scale flammability test method when the flame retardancy mechanisms relies on either the development of physical barrier layer at the surface of the burning sample or on reflecting the incident heat flux. Similarly, it was found that laser pyrolysis-thermogravimetric analysis generated outcomes that did not correlate with the cone calorimeter results at all. In particular, the composite based on expandable graphite performed poorly. The likely explanation is that the aspect ratios of the small samples were such that the barrier effects on which this system relies, was negated by edge effects. / Dissertation (MSc)--University of Pretoria, 2018. / Chemical Engineering / MSc / Unrestricted
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Flame retardant treated wood : An investigation into phytic acid and its ability to act as a flame retardant agentStröm, Mattias, Paulusson, Herman January 2023 (has links)
Flame-retardant coatings have been serving their purpose since the romans ruled Europe. These products have been developed through the years, by mixing and synthetizing solutions, which have resulted in effective, although questionable, products due to their impact on the environment and our health. This matter has been addressed earlier, predominantly regarding fabrics. Now is the time to approach this issue by finding an environmentally and health friendly flame-retardant, that can be applied on wood. Phytic acid is a phosphorus based organic compound which is found abundant in nature and could potentially act as a non-toxic flame-retardant. The acid can form other complexes which could add additional flame-retardant mechanisms and desired characteristics of a flame-retardant. This potential flame-retardant was investigated using two different methods. The first method includes two test series which sought to explain how properties as concentration of phytic acid, pH and different additives affected flame-retardant behaviour. The first method was later changed and refined into the second method, to add higher reliability and validity to the conducted tests. The new method implemented additional analytical methods such as differential scanning calorimetry and nuclear magnetic resonance spectroscopy to investigate particular compounds. The results from the thermogravimetric analysis show that wood samples which were coated with the flame-retardant, had twice the mass percentage remaining compared to the untreated wood samples.
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Fabrication, Synthesis, and Characterization of Flame Retardant and Thermally Stable Materials: Flame Retardant Coating for Polyurethane Foam and Fused-ring Benzo-/naphthoxazinesLiu, Jiacheng 02 June 2017 (has links)
No description available.
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