Quyen Hoang Thi Ngoc scite author profile

Quyen Hoang Thi Ngoc

3Publications

5Citation Statements Received

131Citation Statements Given

How they've been cited

How they cite others

125

Affiliations

Hanoi University of Science and Technology

Publications

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Effect of Transition Elements on the Thermal Stability of Glassy Alloys 82Al–16Fe–2TM (TM: Ti, Ni, Cu) Prepared by Mechanical Alloying

et al. 2021

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In the present study, the thermal stability and crystallization behavior of mechanical alloyed metallic glassy Al82Fe16Ti2, Al82Fe16Ni2, and Al82Fe16Cu2 were investigated. The microstructure of the milled powders was characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), and differential scanning calorimetry (DSC). The results showed remarkable distinction in thermal stability of the alloys by varying only two atomic percentages of transition elements. Among them, Al82Fe16Ti2 alloy shows the highest thermal stability compared to the others. In the crystallization process, exothermal peaks corresponding to precipitation of fcc-Al and intermetallic phases from amorphous matrix were observed.

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Effects of the Destabilisation Heat Treatments on the Precipitation of Secondary Carbides and Their Effect on the Corrosion of 27 wt.% Chromium White Cast Iron

Hong

Ngoc

et al. 2021

ISIJ Int.

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Effect of Residual Stress Distribution on the Formation, Growth and Coalescence of Voids of 27Cr White Cast Iron under Impact Loading

et al. 2022

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The present study shows that effect of impact load on microstructural feature in 27Cr white cast iron alloy, which is destabilized at 1150°C for 3 hour holding. The specimen is received with a microstructure consisting of ductile matrix (57% retained austenite) and amount of dispersed secondary. The residual stresses distribution in the alloy as a function of the impact load, they localized around the eutectic carbides and eutectic carbides, at defect positions. This distribution tends to decrease in the impact loading direction. The dislocations are formed in alloy as a result of the concentration stress, which caused by impact load. High stress concentration promotes the interaction between dislocations and these dislocations tend to pile-up at grain boundaries. In this study, the helical dislocations are observed in the stress concentration areas. The voids are formed by the pile-up of dislocations. The diameter of voids can be from several tens nanometers to 500 nanometers and depending on the applied load. When the voids expand (exceed 500 nm diameter), the ligament around void is thinner and leads to an increase in the deformation region between voids. As a consequence, the voids coalesce by formation the necking of the ligament between two voids to form a micro-crack.

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