Thesis DISEÑO DE DISPOSITIVO MEZCLADOR DE POLVOS PARA LABORATORIO DE PULVIMETALURGIA
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Date
2015-10
Journal Title
Journal ISSN
Volume Title
Program
DEPARTAMENTO DE INGENIERÍA MECÁNICA. INGENIERÍA CIVIL MECÁNICA – MENCIÓN ENERGÍA
Campus
Casa Central Valparaíso
Abstract
En el siguiente trabajo de título se presenta el procedimiento para el diseño
de un dispositivo mezclador de polvos de metalurgia, el que se utilizará en las
dependencias de la Universidad Técnica Federico Santa María para proyectos de
investigación.
Diseñar un dispositivo propio permite satisfacer todas las necesidades que
requiere el personal del laboratorio, permitir una mezcla homogénea, segura y sin
filtración entre otras características. A su vez con esto se reduce considerablemente
los gastos necesarios para obtener un dispositivo similar del mercado.
De igual manera se presenta los pasos necesarios para obtener un diseño final,
iniciando con una idea general de las necesidades, pasando por técnicas ingenieriles
tales como QFD, Benchmarking, TRIZ entre otras, así generando diversas
alternativas de diseño que permitan suplir las necesidades.
La selección de un diseño final se basa principalmente en seleccionar una
alternativa que permita suplir en su totalidad todas las necesidades expuestas en un
inicio.
Ya con una alternativa seleccionada, se confeccionan los planos de
fabricación en detalle para su manufactura, cabe mencionar que este trabajo se
presenta el prototipo que servirá para realizar las pruebas necesarias para obtener un
diseño robusto final.
Por la calidad de prototipo sus componentes fueron diseñados para ser
fabricados mediante técnicas de impresión 3D ya que se puede obtener rápidamente
cada componente.
In this present title work, is presented the designing a mixer powder metallurgy, to be used on the premises of the Technical University Federico Santa María for research projects. Design a device itself can satisfy all the needs that require laboratory personnel, allowing a homogenous, secure and unfiltered mixture among other features. This in turn with the necessary expenditure is significantly reduced to obtain a similar device on the market. Similarly it presents the steps to get a final design, starting with an overview of the needs, through engineering techniques such as QFD, benchamarking, TRIZ among others, generating various design alternatives that allow meet the needs. Selecting a final design it is mainly based on select an alternative that allows fully meet all the needs set initially. And a selected alternative, the manufacturing drawings are made in detail to manufacture, it is noteworthy that this work the prototype will serve to make the necessary to obtain a final design robust evidence is presented. For the quality of prototype components were designed to be manufactured by 3D printing techniques as it can quickly obtain each component.
In this present title work, is presented the designing a mixer powder metallurgy, to be used on the premises of the Technical University Federico Santa María for research projects. Design a device itself can satisfy all the needs that require laboratory personnel, allowing a homogenous, secure and unfiltered mixture among other features. This in turn with the necessary expenditure is significantly reduced to obtain a similar device on the market. Similarly it presents the steps to get a final design, starting with an overview of the needs, through engineering techniques such as QFD, benchamarking, TRIZ among others, generating various design alternatives that allow meet the needs. Selecting a final design it is mainly based on select an alternative that allows fully meet all the needs set initially. And a selected alternative, the manufacturing drawings are made in detail to manufacture, it is noteworthy that this work the prototype will serve to make the necessary to obtain a final design robust evidence is presented. For the quality of prototype components were designed to be manufactured by 3D printing techniques as it can quickly obtain each component.
Description
Keywords
POLVOS DE METALURGIA
