PPG.EGPSA/ITEGAM
URI permanente desta comunidadehttps://rigalileo.itegam.org.br/handle/123456789/1
A comunidade dispõe da produção técnica e científica do Programa de Pós-graduação em Engenharia, Gestão de Processos, Sistema e Ambiental (PPG.EGPSA) do Instituto de Tecnologia e Educação Galileo da Amazônia (ITEGAM), fruto da atividade de pesquisa e desenvolvimento (P&D). É possível acessar os trabalhos de conclusão do programa de pós-graduação, artigos e livros vinculados a pesquisa, desenvolvimento, inovação e extensão.
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5 resultados
Resultados da Pesquisa
Item Proposed checklist for the implementation of the SMT component assembly process(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024) CRUZ JUNIOR, Davi Clementino da; VIEIRA JUNIOR, MiltonThe manufacture of electronic products has evolved significantly over time, starting with wire assembly, through THT (Through Hole Technology), and reaching SMT (Surface Mount Technology), following the trend towards the miniaturization of electronic components. The complete SMT production process generally consists of three distinct stages: solder paste application, component positioning, and solder reflow to electrically connect the components to the board. The manufacture of electronic boards using surface mount technology is the most up-to-date, especially with the advent of Industry 4.0, which is increasingly raising the level of investment required to purchase the equipment/machines that make up a fully automated assembly line. However, it is common to find inefficient SMT lines, increasing manufacturing costs. This paper aims to present an efficient implementation system, considering everything from Design for Manufacturing (DFM) to Start Up, including technical information on the board and the components to be inserted into it, through the programming of assembly equipment.Item Análise da demanda de vendas e da capacidade de produção para determinar a necessidade de mão de obra direta(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024) GEMAQUE, Fabrício Mourão; LEITE, Jandeey Cabral; SILVA, Carlos Américo de Souza; BRITO JUNIOR, Jorge de Almeida; LEITE, Jandecy CabralThis study consists of meeting the sales demand using the existing production capacity in an electronic goods industry and thus determining the amount of direct labor (MOD) necessary to meet the needs of customers. Obtaining the correct number of operators on a production line is extremely important for productivity and cost reduction. Using concepts such as takt time, cycle time, and line efficiency, it is possible to quickly and assertively determine the number of operators needed to meet customer demand, ensuring productive efficiency and the correct application of labor resources. Based on the company's sales projection, it is possible to determine month by month the number of operators, the number of shifts, and the appropriate volume to be produced to meet the requested demand.Item Proposta de lista de verificação para a implementação do processo de montagem de componentes com tecnologia SMT(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024) CRUZ JUNIOR, Davi Clementino; VIEIRA JUNIOR, MiltonThe manufacturing of electronic products has evolved over time, reaching Surface Mount Technology (SMT), essential for the miniaturization of electronic components. This paper presents a checklist for implementing SMT processes in the electronic board assembly sector, covering stages from Design for Manufacturing (DFM) to equipment programming.Item Aplicação da lógica fuzzy como ferramenta no auxílio da tomada de decisões para otimização de layout de linha de soldagem(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024-03-21) FARIAS, Leandro da Mota; GUIMARAES, Gil Eduardo; http://lattes.cnpq.br/8142709905105377In the current market scenario, companies face a highly competitive and challenging market due to various economic and technological factors. Companies that do not modernize themselves are surpassed by new companies with more agile and efficient market methodologies. Therefore, if a company seeks to remain in the market, it must pursue the implementation of new market methodologies. We observe that Industry 4.0 applications are increasingly spreading in the industrial sector through various tools such as automation, IoT, among others. Companies using these tools can reduce costs and become more efficient. Thus, there is a growing demand for the implementation of these tools in the industrial sector. This work aims to apply methods such as Fuzzy logic to develop a Key Performance Indicator (KPI) analysis to assist in the decision-making process aimed at increasing the efficiency of a motorcycle welding production line in a company located in the Manaus Free Trade Zone. Through these mathematical methods, it is possible to losses of the process, helping managers gain a clearer understanding of highly imprecise issues and often dependent on the perspective of decision-makers. Using methods such as: mapping the production process, collecting data such as process time, layout area, productive counterflow, among other indicators, we will prepare an analysis using Fuzzy Logic to aid in the analysis of improving the layout at points such as space layout, parts inventory and line efficiency. The goal of this work is to identify bottleneck points and offer opportunities for deverticalization to propose improvements in production, reducing losses and improving the process flow.Item Desenvolvimento de um layout de etiquetas seriais para redução de falhas de leitura em códigos de barras(Instituto de Tecnologia e Educação Galileo da Amazônia, 2022-12-14) RODRIGUES, Elias; LEITE, Jandecy Cabral; http://lattes.cnpq.br/7279183940171317With the advent of new technologies and the growing market demand, companies have been seeking ways to improve the efficiency of their productivities processes by introducing innovations through the waste elimination, rework reduction and inconsistency of information due to manual data entry. The objective of this article is to demonstrate that it is possible to mitigate or eliminate stops in the TV production process, caused by difficulty to read barcodes printed on thermal transfer printers, with intelligent and innovative solutions with the support of quality tools. In the search for the resolution of these problems, this work was developed in three chapters. Chapter I begins with an introduction that presents the problem to be treated, the barcodes types adopted in the company, briFigura 2. 1efly mentions the quality tools that were used as support in the search for a solution to the problem, and also the general and specific objectives that were defined by the researchers. Chapter II briefly presents the methodology that was applied to develop this work, the concept of efficiency and effectiveness in the production system, and details the quality tools used (PDCA, Brainstorm, 5 Whys, Ishikawa Diagram, and 5W2H) to find a viable solution to the problem to be handled. It addresses the most commonly used types of barcodes, two-dimensional and linear among others, their structural compositions, the encoding and decoding processes, the verifying digit, and the methods that cover incorrect typing detection. Chapter III presents a solution proposal for the company, based on a vast and detailed analysis of the flowchart of each area involved in the process of printing and using barcode labels, the materials used in the printing process, which information systems are used as well as the layout and method used for printing. The result of this study tends to contribute to other enterprises that have similar barcode printing processes, since its application aims to reduce or eliminate line stops, acting directly on the label layout, demonstrating that disruptive thinking and intelligent change contributes positively to the company's bottom line by improving the flow of information and reducing waste.