Properties of AgSnO2 Contact Materials Doped with Different Concentrations of Cr

As an important component carrying the core function and service life of switching appliances, the selection and improvement of electrical contact materials is of great significance. AgSnO2, which is non-toxic, environmentally friendly and has excellent performance, has become the most promising con...

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Published inMaterials Vol. 15; no. 14; p. 4793
Main Authors Wang, Jingqin, Xu, Jingting, Zhu, Yancai, Hu, Delin, Lu, Ningyi, Cui, Defeng, Guo, Peijian
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 08.07.2022
MDPI
Subjects
Ablation
AgSnO2 contact material
arc energy
Atoms & subatomic particles
Chromium
Doping
elastic constant
Elastic properties
Electric contacts
Electrical properties
Electrical resistivity
Energy
Erosion resistance
Experiments
First principles
Hardness
Heat conductivity
Machinability
Mechanical properties
Metal oxides
Molding (process)
Powder metallurgy
Service life
Silver
Simulation
Sol-gel processes
Tin dioxide
Viscosity
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Summary:As an important component carrying the core function and service life of switching appliances, the selection and improvement of electrical contact materials is of great significance. AgSnO2, which is non-toxic, environmentally friendly and has excellent performance, has become the most promising contact material to replace AgCdO. However, it has deficiencies in machinability and electrical conductivity. The property of AgSnO2 contact material was improved by doping element Cr. The relationship between the mechanical and electrical properties of AgSnO2 contact materials and doping concentrations were investigated and analyzed by simulation and experiment. Based on the first principle, the elastic constants of supercell models Sn1−xCrxO2 (x = 0, 0.083, 0.125, 0.167, 0.25) were calculated. The results show that the material with a doping ratio of 25% is least prone to warp and crack, and the material with a doping ratio of 12.5% has the best toughness and ductility and the lowest hardness, which leads to molding and is subsequently easier to process. The Cr-doped AgSnO2 contacts with different doping proportions were prepared by the sol–gel and powder metallurgy method. Additionally, their physical performance and electrical contact properties were measured in experiments. The results show that the doped SnO2 powders prepared by the sol–gel method realize integration doping, which is consistent with the crystal model constructed in the simulation calculation. Sn0.875Cr0.125O2 has lower hardness, which is beneficial to process and form. Doping helps to stabilize the arc root, inhibit the ablation of contact by arc, reduces arc duration and arc energy, improves the resistance to arc erosion of AgSnO2 contact material, and makes electrical contact performance more stable. The contact material with a doping concentration of 16.7% has the best arc erosion resistance.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma15144793