Engineering performance of tungsten network reinforced copper matrix composites synthesized by selective laser melting and infiltration

Yao, Fuxing; Chen, Wenge; Yang, Yana; Zhou, Kai; Li, Rong; Elmarakbi, Ahmed; Fu, Richard

doi:10.1080/14686996.2024.2309888

Cited by 2 publications

(1 citation statement)

References 49 publications

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“…By doping modification, the thermochemical stability of CuW composites was improved through the uniform dispersion of additive. However, the addition of the third component 2 of 15 may bring some other problems, such as the significant decrease in electrical conductivity [15][16][17][18][19][20][21][22]. It is unable to achieve the coordinated improvement of the comprehensive performance.…”

Section: Introductionmentioning

confidence: 99%

Graphene-Enhanced CuW Composites for High-Voltage Circuit Breaker Electrical Contacts

Liu,

Han,

Jia

et al. 2024

Applied Sciences

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To address the issue of over-standard short-circuit currents in a power system, it is imperative to enhance the comprehensive performance of the electrical contacts, which serve as the lynchpin of circuit breakers, so as to improve the breaking capacity of high-voltage circuit breakers. Graphene, as the most prominent two-dimensional carbon material in recent years, has garnered widespread applications across various fields. In this study, graphene-enhanced CuW composites for high-voltage circuit breaker electrical contacts were prepared innovatively using integrated vacuum infiltration technology. The innovative graphene-enhanced CuW composites significantly improved the mechanical, electrical, and ablation resistance properties, and have been successfully applied in the 252 kV/63 kA high-voltage SF6 circuit breakers, achieving 20 times effective consecutive full-capacity short-circuit current breaking. It provides a new route for the development and application of high-performance CuW electrical contacts. Looking ahead, it is planned to extend their application to higher voltage grade high-voltage circuit breakers.

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Section: Introductionmentioning

confidence: 99%

Graphene-Enhanced CuW Composites for High-Voltage Circuit Breaker Electrical Contacts

Liu,

Han,

Jia

et al. 2024

Applied Sciences

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Deformation Behavior of La₂O₃‐Doped Copper during Equal Channel Angular Pressing

Kunčická,

Walek,

Kocich

2024

Adv Eng Mater

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Pure copper has a very low strength of not more than 20 MPa. Nevertheless, its mechanical properties can be enhanced by (micro)alloying, additions of strengthening particles/elements, or imparting structure modifications/grain refinement via (severe) shear strain. The presented study proposes a way of strengthening commercially pure copper by combining 5 wt% addition of La2O3 particles and deformation processing. The composite is vacuum induction cast and subsequently processed by the equal channel angular pressing (ECAP) severe plastic deformation method. Single‐pass ECAP through a die with 110° angle is selected to observe the effect of La2O3 addition on the development of substructure at the beginning of plastic deformation. The results show that the addition of oxide particles not only enhances the microhardness, but also efficiently supports the development of subgrains and shear bands during deformation, which finally results in an increase in the microhardness of the composite to more than double the original copper value. Although the presence of La2O3 particles slightly decreases the electric conductivity, the subsequent ECAP processing provides the final composite with a conductivity of 97.9% IACS (International Annealed Copper Standard), as it promotes the alignment of the strengthening particles along the developed shear bands.

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Engineering performance of tungsten network reinforced copper matrix composites synthesized by selective laser melting and infiltration

Cited by 2 publications

References 49 publications

Graphene-Enhanced CuW Composites for High-Voltage Circuit Breaker Electrical Contacts

Graphene-Enhanced CuW Composites for High-Voltage Circuit Breaker Electrical Contacts

Deformation Behavior of La₂O₃‐Doped Copper during Equal Channel Angular Pressing

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Engineering performance of tungsten network reinforced copper matrix composites synthesized by selective laser melting and infiltration

Cited by 2 publications

References 49 publications

Graphene-Enhanced CuW Composites for High-Voltage Circuit Breaker Electrical Contacts

Graphene-Enhanced CuW Composites for High-Voltage Circuit Breaker Electrical Contacts

Deformation Behavior of La2O3‐Doped Copper during Equal Channel Angular Pressing

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Deformation Behavior of La₂O₃‐Doped Copper during Equal Channel Angular Pressing