Research on Simulation, Experiment and Evaluation Method of Different Ratio Gd Doped AgSnO₂ Contact Material

Abstract: AgSnO 2 electrical contact material with greenery and good performance has the most potential to replace the toxic AgCdO. However, SnO 2 in AgSnO 2 contact material is a kind of semiconductor with wide band gap, which is almost insulated and has high hardness, resulting in the increase of contact resistance and temperature rise, and easy to form microcracks. First principle based on density functional theory are used to simulate three doping ratios (8.3%, 12.5%, 16.7%) of rare earth element Gd doped SnO 2. The… Show more

“…This is attributed to the aggregation of SnO 2 particles on the contact surface over extended periods of use; this is a consequence of the limited wettability between SnO 2 and Ag. During the past decade, various nonmetals, metals or metallic oxides—including N [ 21 ], F [ 22 ], Cr [ 7 ], Ni [ 21 ], Cu [ 23 ], Y [ 24 ], Bi [ 25 ], La [ 26 ], Ce [ 27 ], Gd [ 28 ], CuO [ 29 ], Cu 2 O [ 30 ], NiO [ 31 ], ZnO [ 32 ], TiO 2 [ 33 ], WO 3 [ 34 ], Bi 2 O 3 [ 33 ], In 2 O 3 [ 35 ] and La 2 O 3 [ 36 ]—have been employed as additives to enhance the anti-arc erosion behavior, mechanical properties and conductivity of AgSnO 2 contact material. Among these additives, the addition of In 2 O 3 demonstrated remarkable enhancements in the ultimate strength and elasticity moduli of AgSnO 2 contact materials, along with improvements in cyclic creep behavior.…”

Influence of Heat Treatment Condition on the Microstructure, Microhardness and Corrosion Resistance of Ag-Sn-In-Ni-Te Alloy Wire

“…This is attributed to the aggregation of SnO 2 particles on the contact surface over extended periods of use; this is a consequence of the limited wettability between SnO 2 and Ag. During the past decade, various nonmetals, metals or metallic oxides—including N [ 21 ], F [ 22 ], Cr [ 7 ], Ni [ 21 ], Cu [ 23 ], Y [ 24 ], Bi [ 25 ], La [ 26 ], Ce [ 27 ], Gd [ 28 ], CuO [ 29 ], Cu 2 O [ 30 ], NiO [ 31 ], ZnO [ 32 ], TiO 2 [ 33 ], WO 3 [ 34 ], Bi 2 O 3 [ 33 ], In 2 O 3 [ 35 ] and La 2 O 3 [ 36 ]—have been employed as additives to enhance the anti-arc erosion behavior, mechanical properties and conductivity of AgSnO 2 contact material. Among these additives, the addition of In 2 O 3 demonstrated remarkable enhancements in the ultimate strength and elasticity moduli of AgSnO 2 contact materials, along with improvements in cyclic creep behavior.…”

Influence of Heat Treatment Condition on the Microstructure, Microhardness and Corrosion Resistance of Ag-Sn-In-Ni-Te Alloy Wire

Arc erosion behaviors of the densified Ag-SnO2 contact materials containing sub-micron and nano In2O3 additives

Metallic electrical contact materials: DFT calculations, wetting mechanism and arc resistance