Ingeniería Mecánica

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2018 - 20207

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Subject: search.filters.subject.PULVIMETALURGIA

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Now showing 1 - 7 of 7
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    Diseño y construcción de un molino de bolas de alta energía con sistema de refrigeración para aplicación de pulvimetalurgia para el Laboratorio de Materiales de la Carrera de Ingeniería Mecánica
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica, Carrera de Ingeniería Mecánica, 2020-10) Moya Campaña, Alex Abraham; Saquinga Sangucho, Edwin Vinicio; López Villacís, Gonzalo Eduardo
    This technical project was carried out due to the importance of implementing a high-energy ball mill for powder metallurgy application and in turn obtaining metal powders for the materials laboratory of the Faculty of Mechanical Engineering of the Technical University of Ambato. The project is directed at the design, construction, and operation tests, which are made up of a biphasic motor, eccentric, axles, gear wheels, tensioners, structural system components, for which the theoretical and practical part was investigated, with a grinding mechanism composed of a grinding base box, box lid, grinding tray and demolition elements, defining its support, where the axes have the function of generating movement through the gear wheels and the synchronous belt; where the size, weight and noise of the mill are very important parameters to design as well as the maximum volume of material to be ground; Thus defined its purpose of construction obtaining particle sizes of 0.30 to 4.72 mm, in a time that varies from 0 to 120 minutes. Finally, the machine was built with materials available on the market at affordable prices in case any change or maintenance is required.
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    Análisis del bronce fosforado de corte libre C54400 combinado por mezcla de polvos, y su incidencia en la dureza, tracción e impacto
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica, Carrera de Ingeniería Mecánica, 2020) Guerrero Paredes, Christian Javier; López Villacís, Gonzalo Eduardo
    The process in obtaining the copper, tin, lead and zinc metal powders was carried out by using an attritor ball mill which performs a mechanical grinding process, which took a grinding time of 40 minutes, verifying that the grinding cylinder is free of impurities which could contaminate the material, after obtaining the powder of the different materials, it was screened to acquire the appropriate grain size (63 - 45 um) for the mixture, this process is He made it to the artisanal material since the commercial was already obtained with the appropriate grain size.- The mixture was made using specific percentages of the materials which are: 88 percent copper, 4 percent tin, 4 percent of lead and 4 percent zinc.- In the compaction of the specimens the cold pressing method was used in a hydraulic press, for the specimens a pressure of 250 MPa was used, in the sinter The test specimens were taken at two temperatures of 800 degrees Celsius and 900 degrees Celsius.- Once the specimens have been sintered, the hardness, tensile and impact tests are carried out according to the standards established in the investigation, these tests show The mechanical properties of the sintered material.
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    Diseño y construcción de un molino de bolas planetario para el Laboratorio de Materiales de la Carrera de Ingeniería Mecánica
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica, Carrera de Ingeniería Mecánica, 2019) Maldonado Bernabé, Christian Patricio; Amores Balseca, Edwin Gustavo; López Villacís, Gonzalo Eduardo
    This technical project was carried out due to the importance of implementing a planetary ball mill for the crushing of fine powders and at the same time obtaining steel chip spraying for the materials laboratory of the Faculty of Mechanical Engineering of the Technical University of Ambato The project is oriented in the design, construction, and functional tests that at the same time is composed of a two-phase motor, pulleys and a variable speed drive among other devices, for this, different types of mills were investigated. In the theoretical and analytical, the selection of a two-phase motor was made according to the needs of the planetary ball mill, the main elements were designed such as the structure which will support the transmission system and other components. In addition, the axes have the function of generating the planetary movement by means of pulleys. A fundamental aspect is the size, weight and noise with which the machine was designed. The main parts of the mill are: variator, motor, shafts, vessels, pulleys, timer and transmission bands, etc. The project was designed with the intention of using it for powder metallurgy applications, in which fine steel powders will be obtained in a range of 45 to 250 microns. In addition, it will facilitate research carried out by students, teachers and thus create new mechanical alloys. Finally, the machine was built with materials that are resistant to corrosion, are available in the market and have an affordable cost for their respective construction.
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    Diseño y construcción de un molino de bolas tipo Attritor con un sistema de refrigeración para aplicaciones de pulvimetalurgia para los laboratorios de la Carrera de Ingeniería Mecánica de la Facultad de Ingeniería Civil y Mecánica de la Universidad Técnica de Ambato
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica, Carrera de Ingeniería Mecánica, 2019) Saquinga Chicaiza, Stalin Wladimir; Chiluiza Chicaiza, Flavio Eduardo; Peña Jordán, Francisco Agustín
    This Technical Titling Project focuses on the design, construction and operation testing of an attritor-type ball mill for obtaining powders and alloys from metal chips, acquiring information about the process of powder metallurgy, data and characteristics of the material and using, selection weights of alternatives, criteria such as design and calculation corresponding to the most relevant parts of the milling. As a basis is the analysis of the grinding parameters with the attritor mill should be recorded, such as the turning speed, contamination of the powders due to the material, temperature control and grinding time. Continuing with the selection and weighting of the operating systems in the machine being valued according to weighting criteria such as reliability, maintainability, assembly and price of each of the alternatives to subsequently be calculated valued with its reliability factor. Finally, we proceed to the construction and assemble of parts and elements of the machine being these built and others acquired. One of the most relevant the frequency inverter because it regulates the turning speed and prevents the engine from suffering damage in case of jams and then goes through the operating tests, obtaining the expected results in the mechanical grinding.
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    Diseño y construcción de un molino de bolas tipo Attritor con un sistema de refrigeración para aplicaciones de pulvimetalurgia para los laboratorios de la Carrera de Ingeniería Mecánica de la Facultad de Ingeniería Civil y Mecánica de la Universidad Técnica de Ambato
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica, Carrera de Ingeniería Mecánica, 2019) Chiluiza Chicaiza, Flavio Eduardo; Saquinga Chicaiza, Stalin Wladimir; Peña Jordán, Francisco Agustín
    This Technical Titling Project focuses on the design, construction and operation testing of an attritor-type ball mill for obtaining powders and alloys from metal chips, acquiring information about the process of powder metallurgy, data and characteristics of the material and using, selection weights of alternatives, criteria such as design and calculation corresponding to the most relevant parts of the milling. As a basis is the analysis of the grinding parameters with the attritor mill should be recorded, such as the turning speed, contamination of the powders due to the material, temperature control and grinding time. Continuing with the selection and weighting of the operating systems in the machine being valued according to weighting criteria such as reliability, maintainability, assembly and price of each of the alternatives to subsequently be calculated valued with its reliability factor. Finally, we proceed to the construction and assemble of parts and elements of the machine being these built and others acquired. One of the most relevant the frequency inverter because it regulates the turning speed and prevents the engine from suffering damage in case of jams and then goes through the operating tests, obtaining the expected results in the mechanical grinding.
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    Diseño y construcción de un molino de bolas planetario para el laboratorio de materiales de la Carrera de Ingeniería Mecánica
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica, Carrera de Ingeniería Mecánica, 2019) Amores Balseca, Edwin Gustavo; Maldonado Bernabé, Christian Patricio; López Villacís, Gonzalo Eduardo
    This technical project was carried out due to the importance of implementing a planetary ball mill for the crushing of fine powders and at the same time obtaining steel chip spraying for the materials laboratory of the Faculty of Mechanical Engineering of the Technical University of Ambato The project is oriented in the design, construction, and functional tests that at the same time is composed of a two-phase motor, pulleys and a variable speed drive among other devices, for this, different types of mills were investigated. In the theoretical and analytical, the selection of a two-phase motor was made according to the needs of the planetary ball mill, the main elements were designed such as the structure which will support the transmission system and other components. In addition, the axes have the function of generating the planetary movement by means of pulleys. A fundamental aspect is the size, weight and noise with which the machine was designed. The main parts of the mill are: variator, motor, shafts, vessels, pulleys, timer and transmission bands, etc. The project was designed with the intention of using it for powder metallurgy applications, in which fine steel powders will be obtained in a range of 45 to 250 microns. In addition, it will facilitate research carried out by students, teachers and thus create new mechanical alloys. Finally, the machine was built with materials that are resistant to corrosion, are available in the market and have an affordable cost for their respective construction.
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    Estudio de las propiedades mecánicas (resistencia última a la tracción, límite de fluencia, dureza, resistencia al impacto) de la aleación aluminio 1060 con magnesio obtenido mediante el proceso de pulvimetalurgia
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica. Carrera de Ingeniería Mecánica, 2018) Carrera Ramos, Diego Salvador; López Villacís, Gonzalo Eduardo
    The experimental work was based on the study of the basic mechanical properties (ultimate tensile strength, yield strength, hardness, impact resistance) of aluminum alloy 1060 with magnesium in its different volumetric fractions, the approach of the study arises from the appearance of new materials that are used in the construction of mechanical elements that are part of vehicles and other means of transport, with properties equal or superior to those of traditional materials, being replaced by some of its advantages among which we have its reduced weight and low cost, the alloyed material was subjected to traction hardness and impact analysis obtaining the final results of each of the tests. For the execution of the tests the ASTM standards that regulate the execution of the tests were used, thus the following norms were used: (ASTM E8-00b, ASTM E10-01 Hardness, ASTM E23-01 Impact), this way they executed the analyzes and it was possible to establish the volumetric fraction that presented the best results. With the results obtained it was determined that the groups with the best mechanical characteristics are the Y1 group for tensile tests and the Y2 group for hardness and impact tests presenting the following average properties, ultimate tensile strength: 53.19 MPa, limit creep: 7.29 MPa, hardness: 41.98 HB, impact resistance: 1.12 J / cm2.