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European Union Foreign Policy Construction During the Yugoslav Wars Using the Multiple Autonomous Actors Decision UnitDoty, Daniel Jonas 08 August 2011 (has links)
No description available.
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Fabrication and Characterizations of LAGP/PEO Composite Electrolytes for All Solid-State Lithium-Ion BatteriesLee, Jeremy J. 07 June 2018 (has links)
No description available.
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Agricultural waste and wood waste for pyrolysis and biochar : An assessment for Rwanda / Jordbruks- och träavfall för produktion av biokol : En utvärdering för RwandaEliasson, Jenny, Carlsson, Viktor January 2020 (has links)
A high priority in order to combat climate change is disposal of waste. In low-income countries, a large portion of biomass residues generated in the forestry, agricultural and industrial sectors could be usable, instead of being seen as waste. For instance, it could be converted into biochar, which is proven to have many environmental benefits. In Rwanda, the agricultural sector employs 80% of the population and accounts for 35% of GDP. This sector, together with later refinement of crops and forestry production, cause large amounts of residue that many times is considered as waste. In this report, a literature study was conducted to evaluate possible biochar production from agricultural and wood wastes in Rwanda. Characteristics that determine if a biomass could be suitable for a biochar production were identified as C, H, O, N, S, hemicellulose, cellulose, lignin, ash and moisture content, residue-to-product ratio, and low heating value. These characteristics were assessed for the chosen Rwandan agricultural and wood wastes, by compiling values from published reports. The result shows that there are large volumes of residues that have potential for biochar production instead of being seen as waste in Rwanda. Biochar production from these wastes could enable environmental benefits for Rwanda, although further investigation of each single biomass could be needed in order to see if it is practically, technically and financially possible to do in reality. / För att bekämpa klimatförändringen är avfallshantering en hög prioritet. I låginkomstländer kan en stor andel av biomassarester som genereras i skogsbruk, jordbruks- och industrisektorer vara användbara, istället för att ses som avfall. Till exempel skulle det kunna omvandlas till biokol, som har visats sig ha många miljömässiga fördelar. I Rwanda arbetar 80% av befolkningen inom jordbrukssektorn och den står för 35% av BNP. Denna sektor, tillsammans med förädling av grödor och skogsbruksproduktion, orsakar stora mängder rester som många gånger betraktas som avfall. I denna rapport genomfördes en litteraturstudie för att utvärdera möjlig produktion av biokol från jordbruks- och träavfall i Rwanda. Egenskaper som avgör om en biomassa kan vara lämplig för en biokolsproduktion identifierades som C-, H-, O-, N-, S-, hemicellulosa-, cellulosa-, lignin-, ask- och fukthalt, samt andel avfall som uppstår i förhållande till färdig produkt och värmevärde. Dessa egenskaper utvärderades för det valda jordbruks- och träavfallet genom att sammanställa värden från publicerade rapporter. Resultatet visar att det finns stora volymer rester som har potential för biokolsproduktion istället för att ses som avfall i Rwanda. En biokolsproduktion från dessa avfall skulle kunna ge miljömässiga fördelar för Rwanda, även om ytterligare undersökning av varje enskild biomassa skulle behövas för att se om det är praktiskt, tekniskt och ekonomiskt möjligt att genomföra i verkligheten.
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Effect of Minimum Suppression and Maximum Release Years on Compression Parallel to Grain Strength and Specific Gravity for Small-sized Yellow-poplar (Liriodendron tulipifera L.) SpecimensMettanurak, Thammarat 23 September 2008 (has links)
Several researchers have concluded that there is little or no relationship between specific gravity and ring width or growth rate in yellow-poplar (Liriodendron tulipifera L.). Because most mechanical properties of wood are also closely related to specific gravity, it would thus be of interest to learn how minimum suppression and maximum release years' evidence that can be extracted from radial growth patterns based on a modified radial growth averaging (RGA) technique's influence the compression parallel to grain strength and specific gravity of wood.
This study is designed to evaluate the effects of growth suppression and release on ultimate crushing stress and specific gravity for small-sized yellow-poplar specimens. Additionally, the relationship between specific gravity and ultimate crushing stress is investigated.
Twenty-three yellow-poplar cores were examined for their growth ring widths. Minimum suppression and maximum release years were identified based on the modified RGA criteria method. From each increment core, three 1 Ã 1 Ã 4 mm specimens from both minimum suppression and maximum release years were tested for their ultimate crushing stresses using a micro-mechanical test system. The specific gravity of each specimen was also recorded. These data were analyzed using a paired samples t test and a simple linear regression.
The results indicate that the mean ultimate crushing stress and specific gravity of maximum release years were significantly higher than that of minimum suppression years. Furthermore, the ultimate crushing stress was linearly related to the specific gravity of the specimens. / Master of Science
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Nosná železobetonová konstrukce rodinného domu / Load-bearing reinforced concrete structure of a family houseBorovec, Michael January 2022 (has links)
The final thesis is focused on designing reinforced concrete load-bearing structures of a detached house on two floors and one basement. In the basement will be located the storages, utility room and wine bar. On the ground floor will be located garage for two cars, living room with kitchen and study. On the second floor will be located bedroon and two child’s rooms. The ceiling slab of the second floor, the ceiling slab of the ground floor, the ceiling slab of the basement, spiral staircase, half-turn staircase and walls of the first underground floor with solution as water-resistant construction. Programs SCIA Engineer 21.1 and Dlubal RFEM are used to calculate the internal forces. To varify the accuracy of the results is used manual calculation. The work includes drawings of formwork and reinforcement of the all designing structires. The bulding is designed according to ČSN EN 1992-1-1.
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États limites ultimes de cadres en acier isolés sismiquement avec des amortisseurs élastomères et des contreventements en chevronsYzema, Fritz Alemagne January 2014 (has links)
Résumé : Ce projet de maîtrise s’intéresse au comportement ultime d’une structure en acier, contrôlée sismiquement par des amortisseurs élastomères et des contreventements en chevron. Les séismes peuvent causer des dommages considérables quand les infrastructures et les bâtiments ne sont pas construits selon les normes et les techniques appropriées. Par conséquent, réduire l’impact des séismes revient particulièrement à construire des ouvrages sécuritaires en tenant compte bien entendu du paramètre économique. Ainsi Gauron, Girard, Paultre et Proulx ont étudié en 2009, un système de reprise de forces latérales, constitué uniquement de treventements en chevron montés en série avec des amortisseurs en caoutchouc naturel fibré ayant de nombreux avantages. Premièrement, le système reste élastique sous le séisme de design en réduisant les efforts sismiques linéaires par un facteur supérieur à R[indice inférieur d] = 3 par rapport à un cadre conventionnel. Deuxièmement, il est capable de contrôler les déplacements sous la limite du CNBC 2010 (Code National du Bâtiment du Canada 2010), et même de réduire ces derniers dans certains cas. Par conséquent, il permet de réduire les sections des poutres et des poteaux des cadres par rapport à une structure conventionnelle ainsi que les coûts de réparation après un séisme. Toutefois, le comportement à l’état limite ultime d’un tel système, ses limites et ses réserves de sécurité restaient à déterminer. Ainsi, l’objectif global de ce projet de recherche est de déterminer les différents mécanismes de ruine possibles de ce système, d’établir des limites et réserves de sécurité, et de préciser, après avoir formulé certaines recommandations, à quelles conditions il peut être utilisé dans le dimensionnement de nouvelles structures. Pour atteindre les objectifs fixés, deux essais quasi statiques ont été réalisés sur deux cadres en acier dimensionnés avec le système. Des essais dynamiques ont aussi été réalisés afin d’avoir les propriétés viscoélastiques des amortisseurs. Le premier essai a mis en évidence un mécanisme de ruine inattendu et prématuré qui a souligné un défaut majeur dans les connexions des diagonales avec l’amortisseur. Le second essai a révélé un des mécanismes de ruine envisagés initialement où le caoutchouc se déchire après l’initiation du flambement dans la diagonale comprimée. Les résultats expérimentaux ont montré que l’amortisseur constitue le maillon faible du système, et que des efforts parasites peuvent réduire significativement la capacité portante des structures dimensionnées avec un tel système. Dans les deux cas, les résultats ont montré que la méthode de dimensionnement du système tel qu’elle est définie actuellement mérite d’être améliorée. En ce sens, des recommandations relatives au dimensionnement des différents éléments des structures dimensionnées avec le système ont été élaborées, particulièrement en ce qui concerne le caoutchouc et les connexions. // Abstract : This thesis focuses on the ultimate behavior of steel structures, controlled seismically by elastomeric dampers and chevron bracings. Earthquakes can cause considerable damages when infrastructures and buildings are not built considering appropriate standards and technics. Therefore, mitigating the impact of earthquakes means essentially building safe structures by taking account of economic parameters too. Thus Gauron, Girard, Paultre and Proulx studied in 2009 a seismic force resisting system consisting only of chevron braces connected in series with fiber-reinforced natural rubber dampers that offers many benefits. First, the system remains elastic under the design earthquake by reducing linear seismic efforts by a factor of R[subscript d] = 3 compared to a conventional frame. Secondly, it allows to control the displacements under the limits of NBCC 2010 (National Building Code of Canada 2010), and even to reduce them in some cases. Therefore, it allows a reduction of sections of beams and columns of conventional frames and it prevents repairing costs of the structure after an earthquake. However, the ultimate limit state behavior of this system, its limitations and safety reserves have not been determined yet. Thus, the overall objective of this project is to determine the different possible failure mechanisms of the system, to set its limits and safety reserves, and to state after some recommendations, how it can be used in the design of new structures. To achieve these objectives, two quasi static tests were performed on two steel frames designed with the new system. Dynamic tests were also conducted to get the viscoelastic properties of the damping material. The first quasi static test revealed an unexpected and premature failure mechanism that pointed out a major flaw in the connections of the braces with the damper. The second test revealed one of the failure mechanisms originally expected where the rubber tears after buckling of the compression brace. The experimental results have shown that the damper is the weak element in the system, and that additional forces can significantly reduce the structural capacity of structures designed with the system. In both cases, the results have shown that the actual design method of the system should be improved. Thus, recommendations for the design of elements of structures designed with this system have been developed, particularly with regard to the rubber and brace connections.
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Fire performance of cold-formed steel sectionsCheng, Shanshan January 2015 (has links)
Thin-walled cold-formed steel (CFS) has exhibited inherent structural and architectural advantages over other constructional materials, for example, high strength-to-weight ratio, ease of fabrication, economy in transportation and the flexibility of sectional profiles, which make CFS ideal for modern residential and industrial buildings. They have been increasingly used as purlins as the intermediate members in a roof system, or load-bearing components in low- and mid-rise buildings. However, using CFS members in building structures has been facing challenges due to the lack of knowledge to the fire performance of CFS at elevated temperatures and the lack of fire design guidelines. Among all available design specifications of CFS, EN1993-1-2 is the only one which provided design guidelines for CFS at elevated temperatures, which, however, is based on the same theory and material properties of hot-rolled steel. Since the material properties of CFS are found to be considerably different from those of hot-rolled steel, the applicability of hot-rolled steel design guidelines into CFS needs to be verified. Besides, the effect of non-uniform temperature distribution on the failure of CFS members is not properly addressed in literature and has not been specified in the existing design guidelines. Therefore, a better understanding of fire performance of CFS members is of great significance to further explore the potential application of CFS. Since CFS members are always with thin thickness (normally from 0.9 to 8 mm), open cross-section, and great flexural rigidity about one axis at the expense of low flexural rigidity about a perpendicular axis, the members are usually susceptible to various buckling modes which often govern the ultimate failure of CFS members. When CFS members are exposed to a fire, not only the reduced mechanical properties will influence the buckling capacity of CFS members, but also the thermal strains which can lead additional stresses in loaded members. The buckling behaviour of the member can be analysed based on uniformly reduced material properties when the member is unprotected or uniformly protected surrounded by a fire that the temperature distribution within the member is uniform. However if the temperature distribution in a member is not uniform, which usually happens in walls and/or roof panels when CFS members are protected by plaster boards and exposed to fire on one side, the analysis of the member becomes very complicated since the mechanical properties such as Young’s modulus and yield strength and thermal strains vary within the member. This project has the aim of providing better understanding of the buckling performance of CFS channel members under non-uniform temperatures. The primary objective is to investigate the fire performance of plasterboard protected CFS members exposed to fire on one side, in the aspects of pre-buckling stress distribution, elastic buckling behaviour and nonlinear failure models. Heat transfer analyses of one-side protected CFS members have been conducted firstly to investigate the temperature distributions within the cross-section, which have been applied to the analytical study for the prediction of flexural buckling loads of CFS columns at elevated temperatures. A simplified numerical method based on the second order elastic – plastic analysis has also been proposed for the calculation of the flexural buckling load of CFS columns under non-uniform temperature distributions. The effects of temperature distributions and stress-strain relationships on the flexure buckling of CFS columns are discussed. Afterwards a modified finite strip method combined with the classical Fourier series solutions have been presented to investigate the elastic buckling behaviour of CFS members at elevated temperatures, in which the effects of temperatures on both strain and mechanical properties have been considered. The variations of the elastic buckling loads/moments, buckling modes and slenderness of CFS columns/beams with increasing temperatures have been examined. The finite element method is also used to carry out the failure analysis of one-side protected beams at elevated temperatures. The effects of geometric imperfection, stress-strain relationships and temperature distributions on the ultimate moment capacities of CFS beams under uniform and non-uniform temperature distributions are examined. At the end the direct strength method based design methods have been discussed and corresponding recommendations for the designing of CFS beams at elevated temperatures are presented. This thesis has contributed to improve the knowledge of the buckling and failure behaviour of CFS members at elevated temperatures, and the essential data provided in the numerical studies has laid the foundation for further design-oriented studies.
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Méthodologie de contrôle en place des micropieux à partir d'essais dynamiques / In situ control methodology for micropiles based on dynamic load testingCalvente, René Matias 30 June 2014 (has links)
L’état de l’art réalisé dans le cadre de ce travail a permis d’identifier une grande variété de techniques de réalisation de micropieux avec des comportements effort-déformation difficiles à prédire. Quant aux méthodes de contrôle, du point de vue de l’intégrité il existe deux méthodes développées pour les pieux lesquelles ne sont pas toujours applicables aux cas de micropieux ; et du point de vue du contrôle du comportement mécanique, il existe un essai assez utilisé pour le contrôle de micropieux : l’essai d’arrachement. Cet essai est facile à réaliser et à interpréter, cependant il est onéreux (long temps d’essai) et difficile à mettre en place. Un autre type d’essai, utilisé dans le contrôle de fondations profondes, est l’essai de chargement dynamique. La recherche bibliographique a permis d’identifier les avantages et inconvénients de ce type d’essai adaptés et déjà validés dans le contrôle de pieux. Nous avons donc proposé une nouvelle méthodologie basée sur des essais de chargement dynamique à faible contrainte nécessitant des énergies de battage beaucoup moins importantes que dans les essais de chargement dynamique classiques. Le protocole et dispositif d’essai de la méthodologie ont été calibrés et validés à partir de simulations numériques afin notamment de justifier les choix de l’énergie d’impact, de la masse du marteau et de l’amortisseur à utiliser. Les observations numériques sont ensuite vérifiées expérimentalement sur des micropieux à échelle réelle mis en place dans un site expérimental développé dans le cadre de ce projet. La méthodologie de contrôle en place de la résistance en service de micropieux développée, c’est une méthode originale simple à réaliser, facile à mettre en oeuvre et d’interprétation immédiate. Elle a été validée aussi dans le cas de micropieux à échelle réelle en conditions maitrisées dans le site expérimental et non maitrisées dans trois chantiers réels de micropieux. Finalement, le progrès dans les recherches, a permis le développement d’une méthodologie de contrôle de la résistance limite de micropieux. Pour cela nous proposons d’utiliser un modèle analytique de prédiction du comportement effort-déformation alimenté par les résultats de l’essai de chargement dynamique à faible déformation et d’un essai complémentaire de reconnaissance des paramètres à la rupture du sol. L´objectif de ce développement est de proposer une prédiction de la résistance limite du micropieux testé sans compromettre son intégrité. L’application de la méthodologie a montré qu’elle donne des résultats très proches de ceux observés dans les essais statiques. / The review of the state-of-the-art of micropiles produced as part of this work allows to identify a wide variety of construction methodologies which have a stress-strain behavior difficult to predict. As for the testing methods, there are methods for assessing the condition of piles or shafts but they are not always applicable to the micropiles; and in terms of the control of mechanical behavior, the most used load testing micropile is the uplift static load test. The static load test is easy to perform and interpret, however the reaction system is cumbersome and slow to erect, therefore this test is time and cost consuming. Another type of test that can be used in the control of deep foundations is the dynamic load testing. The literature review helped to identify the advantages and disadvantages of this type of test that has been adapted and validated in control of pile behavior. The new methodology proposed in this work is based on low-strain dynamic test requiring a smaller impact energy than a high-strain dynamic test. The testing protocol and loading device of the methodology have been calibrated and validated by numerical simulations in order to justify the choice of the impact energy, the weight of hammer and the cushion that will be used. The numerical observations are then verified by experiences in full-scale micropiles installed in an experimental site developed as part of this project. The developed in situ control methodology of the resistance in service of micropiles is an original method, easy to carry out, simple to execute and with an immediate interpretation. This methodology has been validated on full-scale micropiles in contained conditions and also in uncontained conditions in three real projects of micropiles. Finally, the advances in the investigations have led to develop a methodology for control the micropile’s ultimate resistance. We propose to use an analytical model for predicting the stress-strain behavior, which must be supplied with the results of the low-strain dynamic micropile test and of a complementary geotechnical test in order to examine the parameter of soil failure. The goal of this development is to provide a method for predict the micropile’s ultimate resistance without compromising its integrity. The results of the application of the new method to the experimental micropiles are in close agreement with the results observed in the static load test. / La revisión del estado del arte en relación a micropilotes, realizada en este trabajo, ha permitido identificar una gran variedad de técnicas de construcción, donde la predicción de sus comportamientos mecánicos, es una tarea difícil de realizar. Con respecto a los métodos de control, desde el punto de vista de la integridad, existen actualmente métodos no siempre aplicables a los micropilotes, y desde el punto de vista del control del comportamiento mecánico, el ensayo más utilizado es el ensayo de arrancamiento. El ensayo de arrancamiento es de fácil realización e interpretación, sin embargo es oneroso, por su larga duración y la necesidad de disponer de equipos muy pesados.Otro tipo de ensayo, que es utilizado para el control de fundaciones profundas en general, es el ensayo de carga dinámica, cuyas ventajas y desventajas han sido identificadas en la investigación bibliográfica.La nueva metodología propuesta, motivo de este trabajo, está basada en los ensayos de carga dinámica a baja deformación, donde se necesita una energía de impacto mucho menos importante que en el caso de los ensayos clásicos de carga dinámica.El protocolo de la metodología y su dispositivo de ensayo han sido calibrados y validados a partir de simulaciones numéricas con el fin de, principalmente, justificar la elección de la energía de impacto, de la masa del martillo y del amortiguador a utilizar. Las observaciones numéricas han sido, luego, verificadas experimentalmente sobre micropilotes a escala real, instalados en un sitio experimental desarrollado en el marco de este proyecto.La metodología de control in situ, de la resistencia en servicio de micropilotes, desarrollada en este trabajo, es un método original, simple de realizar, con un sistema fácil de instalar y de interpretación inmediata. Ella ha sido validada, en el caso de micropilotes a escala real en condiciones controladas en el sitio experimental, y no controladas en el caso de tres proyectos reales.Además, el avance en las investigaciones, dio lugar al desarrollo de una metodología de control de la resistencia límite de micropilotes. Para ello proponemos utilizar un modelo analítico de predicción del comportamiento esfuerzo-deformación alimentado por resultados del ensayo de carga dinámica a baja deformación y de un ensayo complementario de reconocimiento de los parámetros de ruptura del suelo. El objetivo de este desarrollo es de proponer un método de predicción de la resistencia límite de micropilotes sin comprometer su integridad. La aplicación de la metodología ha mostrado que los resultados son muy cercanos a los observados en los ensayos de carga estática.
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[en] THE ESCHATOLOGICAL NATURE OF THE CHURCH: THE ALREADY AND NOT YET THE FULLNESS OF OUR SALVATION, A REFLECTION FROM THE SEVENTH CHAPTER OF LUMEN GENTIUM / [pt] A ÍNDOLE ESCATOLÓGICA DA IGREJA: UM ESTUDO DO JÁ E DO AINDA NÃO À LUZ DO SÉTIMO CAPÍTULO DA LUMEN GENTIUMFANTICO NONATO SILVA BORGES 14 March 2019 (has links)
[pt] A índole escatológica da Igreja, como reflexão teológica, é muito pertinente, visto que trata da relação entre a estrutura visível da Igreja e aquela realidade pensada como meta última da atividade eclesial. A escatologia do Vaticano II trouxe à tona essa reflexão, quando salientou que a tensão escatológica entre o já e o ainda não faz parte da natureza do Novo Povo de Deus, e que, por isso mesmo, a Igreja é sinal e instrumento desta plenitude da esperança no meio da humanidade. Sendo um sinal, ela se torna, para o mundo, sacramento visível da unidade de gênero humano, com Deus e consigo mesma. Nossa pesquisa deseja enfocar a posição do Concílio Vaticano II acerca dessa situação-missão da Igreja, pois, para os Padres conciliares, a salvação prometida pelo Senhor já começou em Cristo, mas ainda não se consumou, porque o tempo da restauração de todas as coisas dar-se-á somente quando tudo estiver no Pai pelo Filho no Espírito. Então, neste instante, o homem e com ele toda a criação chegará à sua restauração final. Enquanto isso não acontecer, a Igreja é impelida a levar adiante a obra de santificação da humanidade, como missão imputada por Cristo na unidade do Espírito Santo. Esse trabalho quer, portanto, demonstrar como essa salvação de Cristo continua por meio da ação eclesial, que instrui seus filhos sobre o sentido da vida temporal, enquanto esperança dos bens futuros e compromisso com o Reino de Deus. / [en] The eschatological nature of the Church as theological reflection, it is very relevant, since it is the relationship between the visible structure of the Church and that dream reality as the ultimate goal of ecclesial activity. The eschatological nature of Vatican II brought up this discussion when he emphasized that the eschatological tension between the already and not yet is in the nature of the new people of God, and that, therefore, the Church is sign and instrument of fullness of Hope in the midst of humanity. As a sign, it becomes the world visible sacrament of the unity of mankind with God and with herself. Our research focuses on the position of Vatican II about the situation, the Church s mission, as for the Fathers, the salvation promised by the Lord already begun in Christ, but not yet consummated, because the time of the restoration of all things give will be only when all; the man and with him the whole creation reach its final restoration in Christ. In the meantime the church is compelled to carry on the work of sanctification of humanity as mission charged by Christ in the unity of the Holy Spirit. This work therefore want to show how the salvation of Christ continues through the action of the Church, instructing their children about the
meaning of temporal life, as hope of eternal life and commitment to the Kingdom of God.
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EFEITO DA INCORPORAÇÃO DE NANOPARTÍCULAS DE COBRE EM UM SISTEMA ADESIVO CONVENCIONAL NAS PROPRIEDADES MICROBIOLÓGICAS, MECÂNICAS E ADESIVAS À DENTINA / Effect of inclusion of copper nanoparticles in etch and rinse adhesive systems on microbiological and mechanical properties, and the durability of resin–dentine interfacesReyes, Mario Felipe Gutiérrez 23 February 2016 (has links)
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Previous issue date: 2016-02-23 / Objectives: This study evaluated the effect of addition of copper nanoparticles at different concentrations into a simplified etch-and-rinse (ER) adhesive system (Ambar [AM]) on antimicrobial activity (AMA), degree of conversion of adhesives discs (DC-d) and dentin-resin interface (DC-i), the ultimate tensile strength (UTS), 28-day cumulative water sorption (WS), solubility (So) and copper release (CR) as well as immediate (IM) and 1-year (1Y) resin–dentine bond strength (μTBS) and nanoleakage (NL). Methods: Seven experimental adhesive systems were formulated according to the addition of copper nanoparticles (0 [control], 0.0075, 0.015, 0.06, 0.1, 0.5 and 1%) in AM adhesive system. We tested the antimicrobial activity of synthesized adhesives against Streptococcus mutans using agar diffusion assays. For DC-d, specimens were constructed and tested after 24 h for FTIR and micro-Raman spectroscopy. For UTS, specimens were tested after 24 h and 28 days. For WS and So, after specimens build-up, they were stored in water and the properties measured for 28 days. For CR, specimens were stored in 2% nitric acid solution and the properties were measured for 28 days. The occlusal enamel of thirty-five molars was removed and adhesives were applied to dentine surface after 37% phosphoric acid etching. After composite resin build-ups, specimens were longitudinally sectioned to obtain resin–dentine bonded sticks (0.8 mm2). Specimens were tested in tension at 0.5 mm/min in IM or 1Y (μTBS). For NL, 2 bonded sticks from each tooth were prepared and analyzed under SEM in IM or 1Y. For DC-i, 2 bonded sticks were prepared and analyzed under micro-Raman spectroscopy. The μTBS and NL data of each adhesive were subjected to two-way repeated measures ANOVA. For UTS, WS, So, copper release, DC-d and DC-i data of each adhesive were subjected to a one-way ANOVA. Tukey’s post hoc test was used for pair-wise comparisons (α = 0.05). Results: The addition of copper nanoparticles provided antimicrobial properties to the adhesives at all concentrations (p < 0,05), and did not influence UTS, WS and SO (p > 0.05). Higher CR was observed in adhesives with higher concentration of copper nanoparticles (p < 0.05). The addition of 1% of copper nanoparticles decreased the DC-d and DC-i significantly. After 1Y, significant reductions of μTBS and increases of NL were observed in the control group (p < 0.05). Reductions of μTBS and increase of NL over time were not observed for copper-containing adhesives.Conclusions: The addition of copper nanoparticles in concentrations up to 0.5% in the simplified ER Ambar adhesive system may be an alternative to provide antimicrobial properties, increase the long-term stability of resin–dentine interfaces, 12 without reducing adhesives’ mechanical properties evaluated. / Objetivos: Este estudo avaliou o efeito da adição de nanopartículas de cobre, em diferentes concentrações, em um sistema adesivo convencional (CON) simplificado Ambar [FGM] sobre a atividade antimicrobiana (AAM), grau de conversão de corpos de prova de adesivos (GC-c) e na interface de união a dentina (GC-i), resistência máxima à tração (RT), sorção cumulativa de água (SO), solubilidade (SB) e liberação de cobre (LC) durante 28 dias, bem como a resistência de união (RU) e nanoinfiltração (NI) na interface de união à dentina nos tempos imediatos (IM) e após 1 ano (1A). Material e métodos: Sete sistemas adesivos experimentais foram formulados de acordo com a adição de nanopartículas de cobre (0 [controle], 0,0075, 0,015, 0,06, 0,1, 0,5 e 1%) no sistema adesivo Ambar. Foi testada a atividade antimicrobiana dos adesivos formulados contra Streptococcus mutans por meio de ensaios de difusão em ágar. Para GC-c, as amostras foram construídas e testadas após 24 h por meio de espectrofotometria no infravermelho com Transformação de Fourier (FTIR) e espectroscopia de micro-Raman. Para RT, as amostras foram testadas depois de 24 horas e 28 dias. Para SO e SB, depois de confeccionados os espécimes, eles foram armazenados em água e as propriedades medidas por 28 dias. Para LC, as amostras foram armazenadas em solução de ácido nítrico a 2% e as propriedades medidas durante 28 dias. O esmalte oclusal de trinta e cinco molares foi removido e os adesivos foram aplicados na superfície da dentina depois de condicionamento com ácido fosfórico a 37%. Depois de restaurações de resina composta, os espécimes foram seccionados longitudinalmente para se obter espécimes (palitos) de resina-dentina (0,8 mm2). Os espécimes foram testados em tensão a 0,5 mm/min no IM ou 1A (RU). Para NI, 2 espécimes de cada dente foram preparadas e analisadas em MEV e testados no IM ou 1A. Para GC-i, 2 espécimes foram preparados e analisados sob espectroscopia de micro-Raman. Os dados do RT foram analisados por uma análise de variância de 2 fatores. Para AAM, SO, SB, e liberação de cobre, os dados foram analisados por análise de variância de fator único, e para RU e NI os dados foram submetidos a análise de variância de 2 fatores para medidas repetidas. Também foi feito o teste post hoc de Tukey para múltiplas comparações. A significância estatística foi predefinida em α = 0,05.Resultados: A adição de nanopartículas de cobre adicionou propriedades antimicrobianas aos adesivos em todas as concentrações (p < 0,05), e não influenciou a RT, SO e SB (p > 0,05). LC elevadas foram observadas em adesivos com maior concentração de nanopartículas de cobre (p < 0,05). A adição de 1% de 10 nanopartículas de cobre diminuiu significativamente o GC-c e GC-i. Após 1 ano, decréscimos significativos de RU e aumentos de NI foram observados no grupo controle (p < 0,05). Decréscimos significativos de RU e aumentos de NI não foram observados nos adesivos contendo cobre (p > 0,05). Conclusões: A adição de nanopartículas de cobre em concentrações de até 0,5% no sistema adesivo convencional simplificado Ambar pode ser uma alternativa para adicionar atividade antimicrobiana e aumentar a estabilidade a longo prazo das interfaces resina-dentina, sem comprometer as propriedades mecânicas dos adesivos.
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