Ieverton Caiandre Andrade Brito scite author profile

Ieverton Caiandre Andrade Brito

5Publications

26Citation Statements Received

21Citation Statements Given

How they've been cited

How they cite others

Affiliations

Federal University of Paraíba, Instituto Federal do Ceará

Publications

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Mechanical Strength Evaluation of a CuAlBe Shape Memory Alloy under Different Thermal Conditions

Oliveira

Lima

Brito

et al. 2010

MSF

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CuAl shape memory alloys containing 0.6wt% and 0.65wt% was casted by induction melting at room temperature without protective atmosphere and their mechanical strength evaluated as a function of the temperature. It was observed that the melting at room temperature does not promote any difficulty to control de beryllium content. The ultimate stress to rupture drop significantly with decreasing the test temperature is such way that the alloys became brittle irrespective to beryllium content.

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Effects of hot rolling on the microstructure, thermal and mechanical properties of CuAlBeNbNi shape memory alloy

et al. 2022

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Influence of strain rate on mechanical properties of a CuAlMnTiB shape memory alloy

Andrade

Silva

Brito

et al. 2022

Journal of Materials Research and Technology

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Assessment of Pipe Coupling by Using the Recovery of Stress-Induced Martensites in Superelastic Cu-11.8Al-0.6Be-0.5Nb Alloy

Oliveira

Brito

França

et al. 2017

J. of Materi Eng and Perform

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Effect of Hot Rolling on the Thermomechanical properties of a Superelastic Cu-Al-Be-Cr Alloy

et al. 2020

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Shape memory alloys are generally produced by casting processes and are subsequently homogenized. However, to obtain semifinished products on an industrial scale, the ingots from the casting process must be hot worked. In particular, final bar and sheet products can be obtained by hot rolling process. During intense hot work, surface oxidation of the material and microstructural changes may cause modifications to its original thermomechanical properties. In this sense, the present work aimed to study the correlation of the superelastic behavior in a Cu-Al-Be-Cr alloy before and after subjecting it to the hot rolling thermomechanical process. Abnormal grain growth was observed for a hot rolled sample with 30% reduction in initial alloy thickness. This abnormal growth in relation to non-rolled alloy caused an increase in phase transformation temperatures, a reduction in residual strain, a reduction in induction stress and an increase in alloy superelasticity.

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