Giulliano Assis Sodero Boaventura scite author profile

This work contributed to a detailed study on a better understanding of the Jominy test, adopted a proportion of study to create the Jominy test device, exhibited favorable conceptions for the development of a prototype of the device, covering the four aspects of the project, being they: test device, test body heating system, test automation and instrumentation using embedded electronics and financial analysis for the elaboration of this project in Brazil. It was possible to observe in the results that the system is efficient, simple and functional, it was possible to obtain the first test carried out in the controlled environment the temperature data in degrees centigrade, the recorded data were automatically launched in Microsoft Excel by the PLX DAQ software, making the acquisition of the data. In the matter of preparing the test device, the drawings are presented in the 3D modeling software, cost tables of the materials used for assembly in Brazil. In terms of the heating system, a heating system was adopted that uses electromagnetic induction, the cost of materials related to the heating system design was also presented. Another relevant factor that contributes to the research and improvement of the prototype is the municipality, located in the Paraiba Valley region, located in the state of São Paulo, consisting of a fertile and relevant scenario of regional, national, international and multinational statistics, thus concluding the effectiveness for the mainly metallurgical industries. The results obtained were satisfactory How to cite this paper: Boaventura,

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Digital System for Dynamic and Vibration Analysis of a Centrifugal Pump Using the Teknikao Sdav Software: A Case Study

Santos¹,

Chagas²,

Prado³

et al. 2020

IJAERS

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The purpose of the paper is to explain how the measurement and vibration analysis software works. A virtual example and a real example were used, defining their initial configurations and analyzing the graphics resulting from the analysis from the vibration analysis software and thus presenting the results of both tests. Understanding how to operate the vibration measurement equipment and analyzing the data obtained from a previously established configuration, this learning about the operational knowledge of dynamic systems is extremely important because the problems become simple to be solved. The analysis was carried in a virtual and real situation, of the centrifugal pump motor vibrations in the SDAV software made available by the Technical website. The problem analyzed was the rolling of seven rotating spheres, this defect fits as a mechanical system with gap defect and with an intensity of one hundred percent. These settings are the parameters adopted to determine the frequency limits of the defect, the resolution of the graph and the number of readings to be taken. When starting, the software will perform all the analysis and measurement of the defect, returning the results in graphs. For the calculation of useful power, it is known that the electrical frequency was thirty-three hertz (33 Hz), which multiplied by sixty, the approximate value of two thousand revolutions per minute (2000 RPM) was obtained. According to the results shown in the graphs, the functioning of machine is excellent, is in perfect condition for use, not presenting light or serious failure.

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Projetos De Energias Renováveis Nos Cursos De Engenharia De Produção E Elétrica

Neto¹,

Veraldo²,

Silva³

et al. 2022

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