Global ETD Search

41	TIG Welding of Nickel Titanium to 304 Stainless Steel Riggs, Mark R. 09 July 2014 (has links) No description available. Mechanical Engineering nickel titanium nickel-titanium TIG tungsten inert gas welding Mark Riggs Dapino Ohio State Mechanical Engineering nickel filler joining structural material tungsten inert gas Marcelo Dapino torque tube
42	Investigation of a ceramic metal matrix composite functional surface layer manufactured using gas tungsten arc welding Herbst, Stephan January 2014 (has links) Wear resistant surfaces with high toughness and impact resistant properties are to be created to improve the life cycle cost of brake discs for trains. A potential solution to this industrial problem is to use an arc cladding process. This work describes the application of gas tungsten arc welding (GTAW) for a structural ceramic Metal Matrix Composite (MMC) on steel. The structure of the two ceramics examined indicates the possibility of development of a wear resistant surface, which would extend the life of the brake disc. Silicon Carbide (SiC) and Tungsten Carbide (WC) ceramics were studied to embed them in a steel matrix by an advanced GTAW method. WC particles penetrated the liquid weld pool and also partially dissolved in the steel matrix, whereas, SiC because of the physical properties never penetrated deeper into the weld pool but segregated on the surface. Successful embedding and bonding of WC led to the decision to exercise an in-depth analysis of the bonding between the WC particles and the matrix. Chemical analysis of the matrix revealed more WC dissolution as compared to particle form within the clad. It was observed that WC reinforcement particles built a strong chemical bond with the steel matrix. This was shown by electron backscatter diffraction (EBSD) analysis. The hard clad layer composed of WC reinforced steel matrix gave an matching friction coefficient to high-strength steel in cold wear conditions through Pin-on-Disc wear and friction testing. A prototype railway brake disc was created with the established GTAW parameters to find out the difficulties of producing industrial scale components. 671.5
43	Estudo do potencial de contaminação de lixiviados gerados em aterros de resíduos da construção civil por meio de simulações em colunas de lixiviação / Study of the pollution potential of leachate of construction and demolition wastes landfills in lysimeters Córdoba, Rodrigo Eduardo 27 June 2014 (has links) No Brasil, a Resolução CONAMA nº 307/2002 e a Resolução CONAMA nº 448/2012 definem que os resíduos da construção civil (RCC) classe A, caso não sejam reutilizados ou reciclados na forma de agregados, devem ser destinados para aterros de resíduos classe A de reservação de material para usos futuros. Porém, pequenas quantidades de resíduos de outras classes, e resíduos não inertes acabam dispostos neste tipo de aterro. Esse fato pode ser agravado devido esses aterros não possuírem impermeabilização de base e sistemas de drenagem de lixiviados, o que pode favorecer a migração desses lixiviados de RCC para reservas de água, e colocar em risco a saúde da população e o meio ambiente. Com intuito de contribuir nessa área de conhecimento o presente estudo teve por finalidade investigar o potencial de contaminação de lixiviados de aterros de resíduos da construção civil por meio de simulações em colunas de lixiviação. Para tanto, foi realizado um estudo por meio de duas etapas &#8211 simulação de lixiviação de amostras de RCC em colunas de lixiviação (saturadas e não saturadas), e coleta de água subterrânea do aterro de RCC classe A. Resultados da pesquisa apontaram que as amostras de agregados de RCC classe A foram classificadas, de acordo com a NBR 10.004 (ABNT, 2004), como sendo resíduos não perigosos e não inertes &#8211 Classe II A. A hipótese tema do estudo foi verificada, a qual apontou que existe potencial de contaminação dos lixiviados gerados em aterros de RCC Classe A, os quais podem vir a poluir ou contaminar o solo e as águas subterrâneas inviabilizando o uso dessas águas para consumo humano. As concentrações máximas dos lixiviados de RCC que excederam o valor máximo permitido para consumo humano nas simulações foram: sulfato (950 mg/L), dureza (11.280 mg/L), cor (124 uH), Pb (0,36 mg/L), Cd (0,075 mg/L), Ni (0,088 mg/L), Fe (0,658 mg/L), Ba (1,205 mg/L), Cr (0,125 mg/L), Mn (0,297 mg/L), e Al (3,44 mg/L). A pesquisa também contribuiu para melhoria de projetos, execução e controle de aterros de resíduos da construção civil, a fim de futuramente equacionar possíveis impactos negativos gerados por esse tipo de resíduo ao solo e recursos hídricos. / In Brazil, the resolutions nº 307/2002 and nº 448/2012 of the National Environmental Council (CONAMA) define that the construction and demolition (C&D) class A - reusable or recyclable wastes as aggregates, such as ceramic components, grout and concrete -, if not reused or recycled as aggregates, should be going to C&D wastes landfill. These wastes must be disposed in the soil for the reservation of segregated materials for future use or future use of the area. However, these landfills receive small quantities of wastes from other sources and non-inert wastes. This fact can be aggravated because the C&D wastes are disposed in these unlined landfills and without drains of leachate. In this context, the C&D wastes leachate may migrate to water supplies causing risks to both human health and the environment. In an attempt to contribute to this area of knowledge, this project aims to investigate the pollution potential of leachate of construction and demolition wastes landfills in lysimeters. A survey will be conducted in two stages &#8211 simulation of leachate samples of C&D wastes lysimeters (saturated and unsaturated), and study of the C&D wastes landfill of the city through the collection of groundwater. Results of the research classified, for metals, the samples of aggregates of C&D wastes class A &#8211 such as ceramic components (bricks, blocks), grout and concrete &#8211 as non-hazardous and non-inert. The pollution of leachate of C&D wastes landfills was observed. The presence of these contaminants could affect the use of this water for human consumption. The parameters that exceeded the maximum value for human consumption were: sulfate (950 mg/L), hardness (11,280 mg/L), color (124 uH), Pb (0.36 mg/L), Cd (0.075 mg/L), Ni (0.088 mg/L), Fe (0.658 mg/L), Ba (1,205 mg/L) Cr (0.125 mg/L) Mn (0,297 mg/L), and Al (3.44 mg/L ).The research identified requirements for improvement projects, execution and control of C&D wastes landfills to minimize future potential adverse impacts generated by these residues in water resources. Aterro de inertes Construction and demolition landfill Environmental management Gestão ambiental Inert landfill Leachate Lixiviados Resíduos da construção civil Resíduos sólidos
44	Influence of Dusts on Premixed Methane-Air Flames Ranganathan, Sreenivasan 30 March 2018 (has links) Influence of dust particles on the characteristics of premixed methane-air flames has been studied in this dissertation. Experiments are performed in a Bunsen burner type experimental set-up called Hybrid Flame Analyzer (HFA), which can be used to measure the burning velocity of gas, dust, and hybrid (gas and dust) premixed flames at constant pressure operating conditions. In the current study, analysis of particle-gas-air system of different types of dust particles (at particle size, dp = 75-90 Âµm) in premixed methane-air (ϕg = 0.8, 1.0 and 1.2) flames. Coal, sand, and sodium bicarbonate particles are fed along with a premixed methane-air mixture at different concentrations (λp = 0-75 g/m3) in both laminar and turbulent conditions. First, the variation of laminar burning velocity with respect to the concentration of dust particles, and type of dusts are investigated for different equivalence ratios. Second, the laminar premixed flame extinction with inert and chemical suppressant particles are studied. Third, the variation of turbulent burning velocity of these hybrid mixtures are investigated against different turbulent intensities apart from the different concentrations and types of dusts. Fourth, the radiative fraction of heat released from turbulent gas-dust premixed flames are also presented against the operating parameters considered. Combustible dust deflagration hazard is normally quantified using the deflagration index (Kst) measured using a constant volume explosion sphere, which typically is a sealed 20-liter metal sphere where a premixed mixture is ignited at the center and the progression of the resulting deflagration wave is recorded using the pressure measured at the vessel wall. It has been verified from prior studies that the quantification of the turbulence by this method is questionable and there is a need to analyze the controlling parameters of particle-gas-air premixed system accurately through a near constant pressure operated experimental platform. Thus, the main objective of this study is to analyze the influence of dust particles on premixed methane-air flames at near constant pressure conditions. The turbulent burning velocity is calculated by averaging the measured flame heights and the laminar burning velocity is calculated through the premixed cone angle measurements from several high-speed shadowgraph images obtained from the experiments. The turbulent intensity and length scale of turbulence generated by a perforated plate in the burner is quantified from the hot-wire anemometer measurements. Radiative heat flux is also measured for each of the turbulent test conditions. The outcomes from these experiments are: 1. An understanding of the variation of turbulent burning velocity of gas-dust premixed flames as a function of dust type, turbulent intensity, integral length scale, dust concentration and gas phase mixture ratio. 2. An understanding of the flame extinction characteristics and variation of laminar burning velocity of gas-dust premixed flames as a function of dust concentration and gas phase mixture ratio. 3. Quantify the radiative heat flux and radiative fraction of heat released from gas-dust turbulent premixed flames as a function of dust type, turbulent intensity, dust concentration and gas phase mixture ratio. Dust type and concentration play an important role in deciding the trend in the variation of both laminar (SL) and turbulent burning velocity (ST). Coal particles, with the release of volatile (methane), tend to increase burning velocities except for fuel rich conditions and at higher coal concentrations at larger turbulent intensities. At a higher turbulent intensity and larger concentrations, higher ST values are observed with the addition of sand. Sodium bicarbonate addition, with the release of CO2 and H2O, decreased the burning velocity at all the concentrations, turbulent intensities and equivalence ratios. Laminar flame extinction was observed with the addition of sand and sodium bicarbonate particles at conditions exceeding certain critical dust concentrations. These critical concentrations varied with the equivalence ratios of gaseous premixed flames. The turbulence modulation exhibited by particles and particle concentration is evident in these observations. The independent characteristic time scale analysis performed using the experimental data provided further insights to the results. The chemical and convective times in gas phase confirm the broadened preheat thin reaction zone regime in the current test cases, which has an effect of attenuating turbulence and thereby the resulting turbulent burning velocity. The particle time scale analysis (Stokes number) show that the effect of particles and particle concentration is to slightly enhance the turbulence and increase the turbulent burning velocity at lower concentrations. However, the time scale analysis of particle vaporization (vaporization DamkÃ¶hler number) indicate an increase in the vaporization rate for particles (coal and sodium bicarbonate) resulting in a decrease in their turbulent burning velocities at higher concentrations and turbulent intensities. Sodium bicarbonate has higher evaporation rate than coal at same level of turbulence and the absence of this effect for inert (sand) results in higher turbulent burning velocities at higher concentrations. An increase in the turbulent intensity increases the vaporization rate of particles. The investigation on radiative fraction of heat released by methane-air-dust turbulent premixed flames identified that, the addition of dust particles increases the radiative fraction irrespective of the dust type due to the radial and axial extension of flame. A unified approach to couple this multiple complex phenomenon of turbulence, particle interaction, particle vaporization and combustion in particle laden premixed gaseous flames is the direction for future research. heat flux radiation burning velocity sodium bicarbonate laminar turbulent intensity premixed flame dust dust concentration turbulence inert coal
45	Phenomenology of Inert Scalar and Supersymmetric Dark Matter Lundström, Erik January 2010 (has links) While the dark matter has so far only revealed itself through the gravitational inﬂuence it exerts on its surroundings, there are good reasons to believe it is made up by WIMPs – a hypothetical class of heavy elementary particles not encompassed by the Standard Model of particle physics. The Inert Doublet Model constitutes a simple extension of the Standard Model Higgs sector. The model provides a new set of scalar particles, denoted inert scalars because of their lack of direct coupling to matter, of which the lightest is a WIMP dark matter candidate. Another popular Standard Model extension is that of supersymmetry. In the most minimal scenario the particle content is roughly doubled, and the lightest of the new supersymmetric particles, which typically is a neutralino, is a WIMP dark matter candidate. In this thesis the phenomenology of inert scalar and supersymmetric dark matter is studied. Relic density calculations are performed, and experimental signatures in indirect detection experiments and accelerator searches are derived. The Inert Doublet Model shows promising prospects for indirect detection of dark matter annihilations into monochromatic photons. It is also constrained by the old LEP II accelerator data. Some phenomenological differences between the Minimal Supersymmetric Standard Model and a slight extension, the Beyond the Minimal Supersymmetric Standard Model, can be found. Also, supersymmetric dark matter models can be detected already within the early LHC accelerator data. Dark matter inert scalars supersymmetry indirect detection accelerator searches Physics Fysik Astroparticle physics Astropartikelfysik Elementary particle physics Elementarpartikelfysik
46	Matéria escura e o modelo do dubleto inerte / Dark matter and the inert doublet model Luiz, Vivian Ventura Ferreira 15 September 2017 (has links) Submitted by VIVIAN VENTURA FERREIRA LUIZ (vivisventura@gmail.com) on 2018-06-14T17:51:35Z No. of bitstreams: 1 dissertacao.pdf: 1531949 bytes, checksum: 577b1199d5fc233ab7cc7e672975849a (MD5) / Approved for entry into archive by Hellen Sayuri Sato null (hellen@ift.unesp.br) on 2018-06-15T17:55:01Z (GMT) No. of bitstreams: 1 luiz_vvf_me_ift.pdf: 1531949 bytes, checksum: 577b1199d5fc233ab7cc7e672975849a (MD5) / Made available in DSpace on 2018-06-15T17:55:01Z (GMT). No. of bitstreams: 1 luiz_vvf_me_ift.pdf: 1531949 bytes, checksum: 577b1199d5fc233ab7cc7e672975849a (MD5) Previous issue date: 2017-09-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O problema da matéria escura é uma das questões abertas da cosmologia e da física de partículas. Inúmeras observações, em diferentes escalas astronômicas, sustentam que a quantidade de matéria luminosa presente não é capaz de explicar o comportamento observado. A solução para esta inconsistência foi obtida através da introdução de uma nova forma de matéria que, não interagindo com a luz, foi intitulada por matéria escura. O Modelo Padrão da Cosmologia indica que esta componente contribui com mais de 80% da densidade de matéria no Universo, deve ser estável, não relativística e sua densidade relíquia deve combinar com as medidas obtidas pelas flutuações da CMB. Apesar disso, a natureza da matéria escura ainda é um mistério. Entre as partículas candidatas à matéria escura os mais populares são os chamados WIMPs. Esta espécie é considerada uma relíquia térmica e podem fornecer uma abundância compatível com a observada. Nesta direção, o presente trabalho então, trata uma extensão do Modelo Padrão da Física de Partículas, uma vez que este modelo não fornece nenhuma partícula apropriada à matéria escura, chamada Modelo do Dubleto Inerte, que é obtido adicionando um novo dubleto escalar por meio de uma simetria Z_2 que desenvolve uma configuração de vácuo trivial. Dentro do novo espectro de partículas estudamos aquela que parece propor um candidato viável à matéria escura. / The problem of dark matter is one of the open questions of cosmology and particle physics. Several observations, at different astronomical scales, maintain that the amount of light matter present is not able to explain the observed behavior. The solution to this inconsistency was obtained by introducing a new form of matter which, not interacting with light, was titled as dark matter. The Standard Model of Cosmology indicates that this component contributes with more than 80% of the matter density in the Universe, must be stable, non relativistic and its relic density should match with the measurements obtained by the fluctuations of the CMB. Despite this, the nature of dark matter is still a mystery. Among the candidate particles for dark matter the most popular are the so-called WIMPs. This species is considered a thermal relic and can provide an abundance compatible with that observed. In this direction, the present work then deals with an extension of the Standard Model of Particle Physics, since this model does not provide any particle appropriate to dark matter, called Inert Doublet Model, which is obtained by adding a new scalar doublet through a Z_2 symmetry that develops a trivial vacuum configuration. Inside this new spectrum of particles we study the one that seems to propose a viable candidate to the dark matter. Modelo Padrão Extensões Modelo Padrão Matéria Escura Modelo do Dubleto Inerte Standard Model Extensions Standard Model Dark Matter Inert Doublet Model
47	Estudo do potencial de contaminação de lixiviados gerados em aterros de resíduos da construção civil por meio de simulações em colunas de lixiviação / Study of the pollution potential of leachate of construction and demolition wastes landfills in lysimeters Rodrigo Eduardo Córdoba 27 June 2014 (has links) No Brasil, a Resolução CONAMA nº 307/2002 e a Resolução CONAMA nº 448/2012 definem que os resíduos da construção civil (RCC) classe A, caso não sejam reutilizados ou reciclados na forma de agregados, devem ser destinados para aterros de resíduos classe A de reservação de material para usos futuros. Porém, pequenas quantidades de resíduos de outras classes, e resíduos não inertes acabam dispostos neste tipo de aterro. Esse fato pode ser agravado devido esses aterros não possuírem impermeabilização de base e sistemas de drenagem de lixiviados, o que pode favorecer a migração desses lixiviados de RCC para reservas de água, e colocar em risco a saúde da população e o meio ambiente. Com intuito de contribuir nessa área de conhecimento o presente estudo teve por finalidade investigar o potencial de contaminação de lixiviados de aterros de resíduos da construção civil por meio de simulações em colunas de lixiviação. Para tanto, foi realizado um estudo por meio de duas etapas &#8211 simulação de lixiviação de amostras de RCC em colunas de lixiviação (saturadas e não saturadas), e coleta de água subterrânea do aterro de RCC classe A. Resultados da pesquisa apontaram que as amostras de agregados de RCC classe A foram classificadas, de acordo com a NBR 10.004 (ABNT, 2004), como sendo resíduos não perigosos e não inertes &#8211 Classe II A. A hipótese tema do estudo foi verificada, a qual apontou que existe potencial de contaminação dos lixiviados gerados em aterros de RCC Classe A, os quais podem vir a poluir ou contaminar o solo e as águas subterrâneas inviabilizando o uso dessas águas para consumo humano. As concentrações máximas dos lixiviados de RCC que excederam o valor máximo permitido para consumo humano nas simulações foram: sulfato (950 mg/L), dureza (11.280 mg/L), cor (124 uH), Pb (0,36 mg/L), Cd (0,075 mg/L), Ni (0,088 mg/L), Fe (0,658 mg/L), Ba (1,205 mg/L), Cr (0,125 mg/L), Mn (0,297 mg/L), e Al (3,44 mg/L). A pesquisa também contribuiu para melhoria de projetos, execução e controle de aterros de resíduos da construção civil, a fim de futuramente equacionar possíveis impactos negativos gerados por esse tipo de resíduo ao solo e recursos hídricos. / In Brazil, the resolutions nº 307/2002 and nº 448/2012 of the National Environmental Council (CONAMA) define that the construction and demolition (C&D) class A - reusable or recyclable wastes as aggregates, such as ceramic components, grout and concrete -, if not reused or recycled as aggregates, should be going to C&D wastes landfill. These wastes must be disposed in the soil for the reservation of segregated materials for future use or future use of the area. However, these landfills receive small quantities of wastes from other sources and non-inert wastes. This fact can be aggravated because the C&D wastes are disposed in these unlined landfills and without drains of leachate. In this context, the C&D wastes leachate may migrate to water supplies causing risks to both human health and the environment. In an attempt to contribute to this area of knowledge, this project aims to investigate the pollution potential of leachate of construction and demolition wastes landfills in lysimeters. A survey will be conducted in two stages &#8211 simulation of leachate samples of C&D wastes lysimeters (saturated and unsaturated), and study of the C&D wastes landfill of the city through the collection of groundwater. Results of the research classified, for metals, the samples of aggregates of C&D wastes class A &#8211 such as ceramic components (bricks, blocks), grout and concrete &#8211 as non-hazardous and non-inert. The pollution of leachate of C&D wastes landfills was observed. The presence of these contaminants could affect the use of this water for human consumption. The parameters that exceeded the maximum value for human consumption were: sulfate (950 mg/L), hardness (11,280 mg/L), color (124 uH), Pb (0.36 mg/L), Cd (0.075 mg/L), Ni (0.088 mg/L), Fe (0.658 mg/L), Ba (1,205 mg/L) Cr (0.125 mg/L) Mn (0,297 mg/L), and Al (3.44 mg/L ).The research identified requirements for improvement projects, execution and control of C&D wastes landfills to minimize future potential adverse impacts generated by these residues in water resources. Aterro de inertes Gestão ambiental Lixiviados Resíduos da construção civil Resíduos sólidos Construction and demolition landfill Environmental management Inert landfill Leachate
48	Design MIG/MAG svářečky / Design of MIG/MAG Welding Machine Zelenitca, Darina January 2020 (has links) The topic of this diploma thesis is the design of a MIG/MAG welding machine, suitable for locksmiths and workshops. The diploma thesis includes the analysis of existing products from the design and technical point of view and deals with the design of welding machine. The proposed concept focuses on interactive and modern look of the machine and comfortable manipulation and easy operation. The design itself offers a possible direction of morphology of welding machines in the future.
49	Úprava cirkulačního okruhu inertní atmosféry 3D tiskárny SLM 280HL / Modification of inert atmosphere circuit of 3D printer SLM 280HL Somora, Jakub January 2020 (has links) The diploma thesis deals with the design modification of the circulation circuit of inert atmosphere in the 3D printer SLM 280HL. The aim of the proposed modifications was to increase the efficiency of condensate and flue gas removal and thus increase the quality of the production process. Based on experimental measurements of the velocity field at a height of 12 mm, it was found that in the original configuration of the build chamber, there are sites with reduced flow velocity. The test subsequently confirmed the increased porosity of the samples in the given localities. Subsequently, with the help of CFD simulations, a lower flow distributor was designed, which had the most significant effect on the porosity. Furthermore, an additional outlet and flow deflector were designed, which had the task of streamlining the drainage of condensate and fumes from under the protective glass of the laser. The designed components were manufactured and experimentally verified, which was able to prove the flow improvement and reduce the porosity on the platform. A test was also performed with a magnesium-based material, which proved more efficient removal of condensate and flue gases. The work managed to prove the influence of the flow velocity on the porosity of the component at differences in flow velocities above 0,3 ms^-1.
50	Vliv inertní atmosféry na smáčení povrchu u bezolovnatého pájení / Influence of Inert Atmosphere on Surface Wetting in Lead Free Soldering Nestrojil, Michal January 2014 (has links) This master´s thesis dealing with study of influence of inert atmosphere on the wettability of soldered surfaces. The theoretical part is discussed the issue of the soldering, solder joint, oxidation, and inert atmosphere. The glass cover with internal inert gas preheating for the wetting balance testing was prepared in the practical part. With this adjustment were realised tests, in which was examined the effect of the inert gases on the wettability of different materials combination. Further experiments were focused on plasma surface cleaning as possible flux substitution. The evaluation of these experiments were discussed in the end of this master´s thesis. Some of topics were designed for further experiments.

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