Raphael Basilio Pires Nonato scite author profile

Raphael Basilio Pires Nonato

5Publications

3Citation Statements Received

46Citation Statements Given

How they've been cited

How they cite others

Affiliations

Federal Center for Technological Education of Minas Gerais, Federal Center for Technological Education Celso Suckow da Fonseca

Publications

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Bi-level Hybrid Uncertainty Quantification in Fatigue Analysis: S-N Curve Approach

Nonato

2020

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Due to its physical complexity, fatigue phenomenon inherently presents a significant number of uncertain parameters to be predicted. In uncertainty quantification (UQ), research has demonstrated that even a small variation in uncertain input quantities (UIQs) may lead to a wide dispersion in the system response quantities (SRQs). In this paper, a bi-level hybrid UQ analysis of a fatigue problem is presented based on the S-N curve approach. The uncertain fatigue analysis presented is able to deal simultaneously with aleatory- and epistemic-type uncertainties in two levels (a SRQ in the first level is a UIQ in the second level). To this end, the proposed scheme is tested for an AISI 4130 clamped beam subjected to a concentrated load, which material information comes from experiments reported in the literature. The UIQs are geometrical parameters, material properties, loading magnitude, and stress, while the SRQs are the stress (which is also a UIQ for fatigue life) and fatigue life. The results evidenced that the uncertain fatigue analysis, instead of providing a unique value for a SRQ, now produces a possible range of values. Therefore, depending on the risk an engineer can take on a design, there will be a corresponding level of optimization achieved.

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Structural Optimization of a Nose Landing Gear for Cessna 172 Airplane

Nonato¹,

Lopes²

2021

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Implementation of Monitoring in a Residential Water Feeding System Based on Internet of Things

Nonato¹,

Sales²,

Júnior³

2022

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A Mathematical Model for Describing the Thermal Interchange Between Two Black Bodies in a Vaccum

Gama¹,

Silva²,

Nonato³

2004

International Communications in Heat and Mass Transfer

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Software for densification calculation in liquid phase sintering of flat cylinders

Nonato¹,

Restivo²

2023

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Sintering is an ever-growing area, which requires qualitative and quantitative analysis of the results that justify its effectiveness. This is explained because the results can fundament the decision-making process in sintering. Therefore, in this paper, a coded computer program is introduced to outline and speed up the analysis of the sintering process. This software was designed in Microsoft Visual Basic 6.0®, which enables it to be installed on any Windows®-based device. If adequate values of input data are typed in and operating instructions are followed, the software can provide the following output data related to a flat cylinder: (a) initial density; (b) final density; (c) specific area variation; (d) shrinkage; and (e) densification. The developed software contributes to accelerating and standardizing the analysis of the sintering process, also serving as a baseline for future improvements.

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