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261	Influência de modificações superficiais (cromagem e texturização) no comportamento tribológico de aços para fabricação de cilindros de laminação a frio / Influence of surface modifications (surface texturing and hard chromium coating) on the tribological behavior of cold rolling mills Rolls steels Gonçalves Júnior, José Lúcio 07 October 2011 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The present work analyzed the tribological behavior of surface modifications often used in cold rolling mill rolls. Different surface modifications were carried out on samples produced from a fragment of the rolling mill roll: i) texturing; ii) chromium plating; iii) texturing with subsequent hard chrome plating; iv) and hard chrome plating with subsequent texturing. The roll samples were subsequently heat treated and ground on both faces resulting in dimensions of approximately 30 x 30 mm. The wear tests were performed using a reciprocating movement of a ball over flat configuration under a load of 9.8 N. The results showed that surface texturing increased the topographic parameters whereas hard chrome coating decreased them. It was observed that there was no significant change in the coefficient of friction as a function of surface modification. Surface texturing increased the wear of the counter body, while the hard chromium coating reduced it. The addition of the hard chromium coating promoted the formation of a tribolayer on the counter body consisting of chromium and oxygen. On the other hand, for the samples without hard chrome coating the tribolayer consisted of iron and oxygen. As a consequence of the low applied load and the short duration of the tests it became impossible to quantify the wear on the bodies using various techniques. Additionally seven different materials used in replicates. Were investigated using quantitative and qualitative analysis via laser interferometry and scanning electron microscopy. Amongst materials tested, the material Facsimile presented best capacity of replication. / O presente trabalho analisou o comportamento tribológico de modificações, geralmente utilizado em cilindros para laminação a frio. Iniciou‐se o processo com a produção das amostras a partir de um fragmento de cilindro de laminação que foi cortado, originando amostras de aproximadamente 30 x 30 mm, em que se fez tratamento térmico, retificação de ambas as faces e modificações superficiais de cromagem, texturização, cromagem com posterior texturização e texturização com posterior cromagem. Os testes de desgaste foram realizados em modo alternado de deslizamento, com configuração de esfera sobre um plano utilizando‐se carga de 9,8 N. Os resultados permitiram concluir que a texturização elevou os parâmetros topográficos, enquanto o revestimento de cromo duro diminuiu os mesmos. Observou‐se que não houve alteração significativa do coeficiente de atrito em função das modificações superficiais e que a texturização promoveu um aumento significativo no desgaste do contracorpo, enquanto o revestimento de cromo duro promoveu uma redução do mesmo. A adição do revestimento de cromo duro promoveu a formação de uma tribocamada no contracorpo constituída de cromo e oxigênio, em contrapartida, em corpos sem o recobrimento de cromo duro ocorreu a formação de uma tribocamada constituída de ferro e oxigênio nas amostras. Em função da combinação da baixa carga aplicada e do curto intervalo de tempo, tornou‐se impossível a quantificação do desgaste nos corpos pelas diferentes técnicas empregadas. Adicionalmente, estudaram‐se sete diferentes materiais utilizados em réplicas, sendo executadas análises quantitativas e qualitativas via interferometria a laser e microscopia eletrônica de varredura. Dos materiais analisados, o material Facsimile apresentou melhores qualidades de replicação. / Mestre em Engenharia Mecânica Laminação a frio Revestimento de cromo duro Texturização Tribologia Laminação (Metalurgia) Triboloy Cold mill Hard chrome plating Texturing CNPQ::ENGENHARIAS::ENGENHARIA MECANICA
262	Treatment of a cyanide-free copper electroplating solution by electrodialysis: study of ion transport and evaluation of water and inputs recovery. / Tratamento de uma solução de um banho de eletrodeposição de cobre isento de cianeto por eletrodiálise: estudo do transporte iônico e avaliação da recuperação da água e de insumos. Tatiana Scarazzato 19 December 2017 (has links) The two most common commercial copper baths are the acid sulfate copper bath and the alkaline cyanide copper bath. Alkaline copper baths are mostly used to coat parts with complex geometry and to avoid galvanic deposition when depositing a metal on a less noble substrate. Because of the toxicity of cyanide compounds, alternative baths have been developed using different complexing agents. The starting point of the present study is a cyanide-free strike bath developed for copper plating on Zamak substrates developed by the Institute for Technological Research of the State of São Paulo/ Brazil. The replacement of a raw material such as cyanide must be economically advantageous and technically feasible. Therefore, this study intended to propose an alternative to the treatment of liquid wastes from the mentioned bath, aiming at simultaneous water reclamation and chemicals recovery in a closed system. The electrodialysis membrane separation process was studied, using a laboratoryscale system operating with a synthetic solution simulating the rinsing waters from the HEDP-based bath. The feasibility of the technique was evaluated by analyzing operational parameters such as ion extraction, demineralization rate, concentration rate, current efficiency for each anionic specie and average energy consumption. Because HEDP is a chelating agent, the transport of Cu(II)-HEDP chelates through anion-exchange membranes was also evaluated by means of electrochemical methods. Chronopotentiometric and current-voltage curves were constructed for different model solutions containing the same compounds as the original bath. A relation between the presence of chelates in the solutions and the fixed ion exchange group could be established. Lastly, deposition tests were performed using electrolytes containing the recycled inputs and the characteristics of the coatings were analyzed. The results showed that an electrodialysis stack using strongly basic anion-exchange membranes was suitable to produce treated solutions and a concentrate containing the ions from the bath. The concentrate could be added to the copper bath to compensate eventual drag-out losses without affecting the quality of the coatings. Thus, the application of electrodialysis was shown to be a feasible alternative for recovering water and inputs from the evaluated solution, reducing the wastewater generation and saving natural resources. / Os dois banhos de cobre comerciais mais comuns são o banho ácido à base de sulfato e o banho alcalino à base de cianeto. Os banhos alcalinos são usados principalmente para recobrir peças com geometria complexa e para evitar a deposição por deslocamento galvânico quando se deposita um metal em um substrato menos nobre. Por causa da toxicidade dos compostos cianídricos, banhos alternativos vêm sendo desenvolvidos usando diferentes agentes complexantes. O ponto de partida do presente estudo é um banho toque isento de cianeto para deposição de cobre em substratos de Zamak, desenvolvido pelo Instituto de Pesquisas Tecnológicas / Brasil. A substituição de matérias-primas como o cianeto deve ser economicamente vantajosa e tecnicamente viável. Desta forma, este estudo pretendeu propor uma alternativa para o tratamento de resíduos líquidos do banho mencionado, visando à recuperação simultânea da água e das matérias-primas em um sistema fechado. Foi estudado o processo de separação por membranas de eletrodiálise, usando um sistema em escala laboratorial operando com uma solução sintética que simulava as águas de lavagem do banho à base de HEDP. A viabilidade da técnica foi avaliada por meio da análise de parâmetros operacionais, como a extração dos íons, a taxa de dessalinização, o percentual de concentração, a eficiência de corrente calculada para cada espécie iônica e o consumo médio de energia. Devido ao HEDP ser um agente quelante, o transporte de quelatos Cu(II)-HEDP através de membranas aniônicas foi avaliado por meio de métodos eletroquímicos. Curvas cronopotenciométricas e curvas corrente-potencial foram construídas para diferentes soluções sintéticas que continham os mesmos compostos que o banho original. A relação entre a presença de quelatos nas soluções e os grupos fixos de troca iônica pôde ser estabelecida. Por fim, testes de deposição foram realizados usando eletrólitos contendo os compostos reciclados e as características dos depósitos foram analisadas. Os resultados mostraram que o sistema de eletrodiálise usando membranas aniônicas contendo grupos de troca fortemente básicos pôde produzir soluções tratadas e um concentrado contendo os íons do banho. O concentrado pôde ser adicionado ao banho original para compensar eventuais perdas por arraste sem afetar a qualidade dos depósitos. Assim, a aplicação da eletrodiálise se mostrou uma alternativa viável para a recuperação de água e de insumos da solução avaliada, reduzindo a geração de efluentes e economizando recursos naturais. Cobre Efluentes (Tratamento) Eletrodeposição Eletrodiálise Quelato Copper chelates Cyanide-free plating bath Electrodialysis Inputs recovery Membrane separation process Water reclamation
263	Metal-organic Vapor-Phase Epitaxy Of GaAs On Polar And Nonpolar Substrates Hudait, Mantu Kumar 05 1900 (has links) (PDF) No description available. Molecular Beam Epitaxy Vapor Plating GaAs Solar Cells GaAs/Ge Vapor Phase Epitaxy MOVPE MOCVD Electronic Engineering
264	Contribution à la réalisation de cellules photovoltaïques à concentration à base de silicium monocristallin / CONTRIBUTION TO ACHIEVE MONOCRISTALLIN SILICON BASED SOLAR CELLS FOR SOLAR CONCENTRATION APPLICATIONS Crampette, Laurent 15 December 2014 (has links) Les cellules LGBC (Laser Grooves Buried Contact) ont été inventées et développées par M. GRENN au sein de l'UNSW. Elles présentent des contacts métal/silicium enterrés permettant d'optimiser le contact métal/silicium sans augmenter le taux d'ombrage de la cellule. Dans ce manuscrit nous étudierons toutes les étapes clefs nécessaires à la réalisation de ce type de cellules de façon à les rendre industrialisables. Dans un premier temps nous étudierons la réalisation de tranchées dans le silicium via deux lasers (vert & IR). Les paramètres de ces tranchées seront comparées pour sélectionner les plus adaptées à notre technologie en nous assurant qu'il est possible de réaliser une diffusion thermique dans ces tranchées. Nous développerons ensuite deux techniques pour réaliser des émetteurs sélectifs, par double diffusion et par diffusion à travers une couche de nitrure de silicium. Enfin nous étudierons deux méthodes de dépôt de nickel par voie chimique une électrolytique et un electroless. / LGBC (Laser Grooved Buried Contact) solar cells was invented and developed by M.GREEN at UNSW. Grooved contact allow to reach a good serial resistivity without incresing the shadowing of the solar cell. In this report we will study the different step necessarry to build this kind of photovoltaic cells. Fisrt we will see the impact of laser effects on silicon and the different parameters to adapte red and green laser for grooved contct. The we will study to way to create selective emitter, on by two diffusion and the second one by diffusion throught a silicon nitride layer. Then we will develope two nickel metallisation one electrolytique and one electroless. Photovoltaîque Diffusion Laser Electrodéposition de nickel Contacts enterrés Concentration solaire Photovoltaic Phosphorous Diffusion Laser Nickel Plating Grooved Contacts Photovoltaique concentration
265	Electroless Copper Plating to Achieve Solderless Connections Noren, Martin January 2021 (has links) As the world has woken up to the change in climate in recent years, people's environmental concerns are forcing companies to change and find ways to manufacture products without harming nature. One area of serious concern is the electronics industries where an ever-increasing number of products gets updated with sensors and microcomputers to be part of the internet of things. Wen more things are upgraded with electronics, it's important that the production process is as environmentally friendly as possible and that the techniques used introduces a minimum amount of disturbance to the circuits in them. To tackle this problem, this thesis presents a novel way of manufacturing PCBs without the need for soldering components, a method that increases performance and has substantial environmental benefits. When comparing conventional soldering to the electroless copper plating process presented in this thesis, electroless copper plating uses 67 times less metal and also reduces the parasitic capacitance in the PCB that comes from the solder joints. Utilizing the solder-free method means 67 times less metal needs to be mined, transported, and recycled. Moreover, since lead is a toxic heavy metal that is often part of the solder, decreasing its use in the industry is beneficial for human health and the environment. Nowadays, when the world steadily moves toward products that use technologies like 5G, technologies where higher frequencies are required, their sensitivity to capacitive disturbances from parasitics increases. In this thesis, when comparing the conventional solder method to the non-solder method to attach a capacitor, a significant reduction in phase shift of 0.9° is measured; this change is directly related to the removal of the solder and the parasitic capacitance that comes with it. electroless copper plating solderless connections non-solder solderless solder free Elektroteknik och elektronik
266	Návrh technologie výroby tělesa světlometu motocyklu / Design of manufacturing technology for motorcycle headlamp body Nosek, Jan January 2010 (has links) The thesis is a proposal technology of the main body of motorcycle polymer material from Bayer's APEC - high temperature polycarbonate 1703. Literary study summarizes findings from a thermoplastic injection molding technology and the possibilities of structural design of injection molds, plastic plating technology from a focus on the most important technology in the field of lighting technology vehicles. Given the anticipated production run of 50 thousand. pieces are assessed a total of 2 variants of the molding parts. The practical part was modeled and specified product designed mold. Construction was done by using SolidWorks 2007 software and normalities FCPK Bytów and HASCO. For the selected option is implemented technological calculations. For the proposed technology was chosen Allrounder injection molding machine 570 A the manufacturer Arburg designed and suitable technological process of production.
267	Functionalization of particles and selective functionalization of surfaces for the electroless metal plating process Mondin, Giovanni 28 November 2014 (has links) Electroless plating is a metal deposition technique widely used in the coating industry. It is the method of choice to plate substrates with complex geometries and nonconductive surfaces, such as polymers and ceramics, since it is based on a chemical reduction in solution rather than on an external electrical energy source like the electroplating method. Among others, examples of well-established applications are the electroless deposition of decorative metal coatings such as gold and silver, wear and corrosion resistant nickel coatings, particularly to coat drive shafts, rotors, and bathroom fixtures, as well as the electroless deposition of copper in electronic devices as diffusion barriers and conductive circuit elements. In the academic research, electroless plating is extensively used thanks to its low cost, simple equipment and versatility that allow rapid prototyping. Two common applications are the coating of small particles and the selective plating of flat surfaces. Metal coated ceramic particles are of enormous interest in many scientific fields, e.g. fluorescent diagnostics in biochemistry, catalysis, and fabrication of photonic crystals. Metal coated ceramic nanoparticles and microparticles are also gaining attention as potential candidates in the fabrication of higher quality metal matrix Composites, which is one of the applications addressed by this work. Metal coated ceramic particles are easier to integrate in metal matrix composites, avoiding aggregation caused by the low wettability of the particles by the matrix metal, and are potentially shielded from oxidation and undesired chemical reactions that take place at the interface between the particles and the metal Matrix. Electroless plating is an autocatalytic process, meaning that the deposited metal atoms catalyze the deposition of further metal. In order to achieve the first stable metal seeds on a surface, the latter has to be functionalized. Without this functionalization the metal ions in the electroless plating bath are not reduced or are simply reduced to metal nanoparticles in solution. The traditional activation step for nonconductive surfaces is performed by immersion of the substrate in palladium based solutions, which is very time-consuming and extremely expensive. In particular for nanoparticles, previous work showed that at least 1015 Pd atoms/cm2 are required for a uniform activation of a surface, meaning that in the case of nanoparticles with a surface area of about 100 m2/g are necessary 6.4 g of palladium for each gram of substrate. Assuming a price of about 150 €/g (laboratory scale) for palladium nanoparticles and palladium precursors used for surface activation, it results that the activation of 1 g of nanoparticles costs around 1000 €. Such costs are suboptimal considering the typical production scale, and therefore alternative functionalization methods are desired. In this work, new organic-based functionalization methods based on (3-mercaptopropyl)triethoxysilane to functionalize oxide particles, 3-aminopropylphosphonic acid to activate carbide particles and a substrate-independent method based on the bioinspired polydopamine are developed and investigated in detail, together with the respective electroless plating baths, which often have to be specifically tailored regarding the different reactivity of the different molecules and substrates. Furthermore, in the fabrication of metallic patterns on substrates by electroless plating, new, simple, and cost-effective activation and metal deposition processes are desired. In this work, two new methods are presented, one based on the printing of (3-mercaptopropyl)triethoxysilane by microcontact printing, the other based on the capillary force lithography of polymethylmethacrylate. info:eu-repo/classification/ddc/540 ddc:540
268	A study of tetracycline resistant Escherichia coli in impala (Aepyceros melampus) and their water sources Mariano, Valeria 19 February 2009 (has links) A case control study was performed in the conservancy area of the Kruger National Park (KNP), South Africa to find out whether the faeces of impala (Aepyceros melampus) were more likely to contain tetracycline resistant Escherichia coli (TREC) when they drank from rivers that contained these bacteria, compared to rivers that were uncontaminated with TREC. Five perennial rivers (Crocodile, Letaba, Olifants, Sabie and Sand) were selected. A total of 11 points in these rivers were sampled on three separate occasions and cultured for E. coli. Impala herds within 5 kilometres of each water collection site were identified and between 5 and 10 fresh faeces were collected for each collection period (n=209 faecal specimens). Selective culturing of E. coli was done and the resulting colonies were screened for tetracycline resistance by using the Lederberg Replica Plating (LRP) method. Resistant colonies were those that grew in the presence of 4 mg/L of tetracycline. Both a resistant and/or a susceptible isolate were then selected from each specimen, and subjected to the minimum inhibitory concentration (MIC) micro-broth dilution test for tetracyclines. The breakpoint for the MIC method was considered ≥ 8 mg/L (which is higher than for the LRP method). Twenty one of the 33 water specimens examined were found to be contaminated by E. coli. Among them (n=21), 76.19% (n=16) were resistant to tetracycline using the LRP method, although using the MIC method only 19.05% (n=4) were resistant. All of the resistant strains originated from the Letaba, Olifants and Crocodile rivers (TRECpos rivers). Among the 209 impala faeces sampled, 191 were positive for the presence of E. coli (91.38%). Within these (n=191), 36.64% (n=70) showed TREC using the RPL method, while using the MIC, 9.95% (n=19) were found to be TREC. The RPL and MIC methods showed a concordance of only 48%. Resistant isolates screened by PCR for tet(A) and tet(B) genes were found to be negative and it was concluded that other resistant genes were responsible. The odds ratios (OR) showed that impala drinking from TRECpos rivers were 19.3 (2. 63-141.68) times more likely to be infected with TREC than unexposed impala / Dissertation (MSc)--University of Pretoria, 2007. / Paraclinical Sciences / unrestricted Tetracycline resistance aepyceros melampus Pcr Wildlife Impala Knp rivers Escherichia coli Minimum inhibitory concentration method Replica plating method UCTD
269	Electrodeposited Metal Matrix Composites for Enhanced Corrosion Protection and Mechanical Properties Thurber, Casey Ray 05 1900 (has links) In the oil and gas industry, high corrosion resistance and hardness are needed to extend the lifetime of the coatings due to exposure to high stress and salt environments. Electrodeposition has become a favorable technique in synthesizing coatings because of low cost, convenience, and the ability to work at low temperatures. Electrodeposition of metal matrix composites has become popular for enhanced corrosion resistance and hardness in the oil and gas industry because of the major problems that persist with corrosion. Two major alloys of copper-nickel, 90-10 and 70-30, were evaluated for microbial corrosion protection in marine environments on a stainless steel substrate. Copper and copper alloys are commonly used in marine environments to resist biofouling of materials by inhibiting microbial growth. Literature surveying the electrodeposition of Cu-Ni incorporated with nano- to micro- particles to produce metal matrix composites has been reviewed. Also, a novel flow cell design for the enhanced deposition of metal matrix composites was examined to obtain the optimal oriented structure of the layered silicates in the metal matrix. With the addition of montmorillonite into the Ni and Cu-Ni matrix, an increase in strength, adhesion, wear and fracture toughness of the coating occurs, which leads to an increase corrosion resistance and longevity of the coating. These coatings were evaluated for composition and corrosion using many different types of instrumental and electrochemical techniques. The overall corrosion resistance and mechanical properties were improved with the composite films in comparison to the pure metals, which proves to be advantageous for many economic sectors including the oil and gas industry. Cu-Ni copper-nickel montmorillonite corrosion coatings analytical chemistry electrodeposition Corrosion resistant alloys. Alloy plating. Metallic composites. Montmorillonite.
270	Electrochemical and Partial Oxidation of CH4 Singh, Rahul 12 May 2008 (has links) No description available. Chemical Engineering Solid oxide fuel cell coking methane natural gas Cu partial oxidation electrochemical oxidation electroless plating

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