DPI - Departamento Acadêmico de Processos Industriais
URI permanente desta comunidadehttps://ri.ifam.edu.br/handle/4321/505
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Item Padronização do planejamento e controle de manutenção através do pilar de manutenção profissional pertencente a metodologia WCM em uma empresa da linha branca do polo industrial de Manaus - AM(2024-08-22) Pereira, Wander Sousa; Pinto, Camila Costa; Maciel, Paulo Fernando Figueiredo; Fialho, Michaella Socorro Bruce; Oliveira Neto, Benjamim Batista deIn today's globalized scenario, pursuing excellence in maintenance management is crucial for companies to maintain their competitiveness in the international market. With the advent of Industry 4.0, the concept of World Class Manufacturing (WCM) emerges, focusing on waste elimination and continuous improvement in efficiency through technical and managerial pillars. In this context, Maintenance Planning and Control (PCM) plays a crucial role in developing plans and policies to ensure the effectiveness of maintenance processes. This article underscores the importance of PCM as an essential facilitator to achieve and maintain the excellence standards required by WCM through the implementation project of the Professional Maintenance Pillar in a white goods industry located in the industrial hub of Manaus, Brazil. As a result of restructuring efforts, including the establishment of indicators, improved data control, and enhanced service efficiency, there was a significant reduction in lost products from 39,903 units in 2020 to 20,962 units in 2021, along with a decrease in equipment downtime from 1.63% to 0.73%.Item Projeto de uma máquina alimentadora de tarugos(2022-08-20) Costa, Eduardo de Souza; Maciel, Paulo Fernando Figueiredo; Fialho, Michaella Socorro BruceThis work presents the development of a project for an Automatic Aluminum Billet Feeding Machine, designed to meet the demands of the aluminum profile extrusion industry. The objective is to provide an automated and reliable solution for the supply of aluminum billets, aiming to improve the productivity and competitiveness of companies in the sector in a sustainable manner. The methodology is divided into three main stages: mechanical design, electrical design, and ladder programming. In the mechanical design phase, the physical elements of the machine are dimensioned, ensuring its robustness and operational efficiency. In the electrical design phase, the necessary electrical components are dimensioned and selected, taking into account safety standards and performance requirements. Finally, in the ladder programming phase, the machine control software is developed, responsible for coordinating its operations. The described methods enable the design of a machine capable of meeting the project requirements efficiently and sustainably.