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W4200617070 startingPage "108181" @default.
W4200617070 abstract "Shearing fracture behaviors of nickel coated multiwall carbon nanotubes (Ni-MWCNTs) reinforced sintered silver were investigated based on end-notched flexure (ENF) test in this paper. By mechanical mixture of Ni-MWCNTs with sintered silver, an enhanced shearing fracture toughness is obtained at content of 0.5 wt% Ni-MWCNTs . Shearing fracture toughness of sintered silver with different contents of Ni-MWCNTs has been investigated. Upon adding the proper Ni-MWCNTs, the cracking path in sintered silver turns to be cohesive cracking easily, which leads to increase of shearing fracture toughness. The average critical energy release rate obtained at content of 0.5 wt% Ni-MWCNTs sintered silver has been increased by 67.98% and the maximum critical energy release rate was increased to 2.1 times that of average condition in sintered silver without additive. The enhancement mechanism and agglomeration effect of Ni-MWCNTs are discussed. The different microstructure characteristics of Ni-MWCNTs sintered silver are also presented. The fracture properties of sintered silver with different Ni-MWCNTs additive contents are discussed and clarified. The sintered method presented in this paper satisfies the requirements of low temperature and low pressure joining technique in electronics implications. This study presents a novel insight on improving the shearing fracture resistance by adding carbon-based nanomaterial for those die-attaching materials in electronic packaging of power devices." @default.
W4200617070 created "2021-12-31" @default.
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W4200617070 date "2022-02-01" @default.
W4200617070 modified "2023-09-30" @default.
W4200617070 title "Shearing fracture toughness enhancement for sintered silver with nickel coated multiwall carbon nanotubes additive" @default.
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W4200617070 cites W1974540126 @default.
W4200617070 cites W1987141807 @default.
W4200617070 cites W1989472626 @default.
W4200617070 cites W1989868865 @default.
W4200617070 cites W1992999049 @default.
W4200617070 cites W1995312262 @default.
W4200617070 cites W2001358531 @default.
W4200617070 cites W2014932468 @default.
W4200617070 cites W2025998240 @default.
W4200617070 cites W2030273209 @default.
W4200617070 cites W2032799405 @default.
W4200617070 cites W2046657012 @default.
W4200617070 cites W2050870760 @default.
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W4200617070 cites W2056085678 @default.
W4200617070 cites W2064708242 @default.
W4200617070 cites W2073299981 @default.
W4200617070 cites W2084648003 @default.
W4200617070 cites W2092485849 @default.
W4200617070 cites W2100565609 @default.
W4200617070 cites W2113967536 @default.
W4200617070 cites W2162440015 @default.
W4200617070 cites W2170577594 @default.
W4200617070 cites W2273839390 @default.
W4200617070 cites W2277134165 @default.
W4200617070 cites W2300378371 @default.
W4200617070 cites W2401141829 @default.
W4200617070 cites W2441776683 @default.
W4200617070 cites W2552674418 @default.
W4200617070 cites W2553401671 @default.
W4200617070 cites W257706337 @default.
W4200617070 cites W2581620852 @default.
W4200617070 cites W2590012635 @default.
W4200617070 cites W2606501512 @default.
W4200617070 cites W2618156163 @default.
W4200617070 cites W2771559998 @default.
W4200617070 cites W2782331309 @default.
W4200617070 cites W2782469316 @default.
W4200617070 cites W2789362980 @default.
W4200617070 cites W2791058620 @default.
W4200617070 cites W2793325715 @default.
W4200617070 cites W2793825043 @default.
W4200617070 cites W2810923015 @default.
W4200617070 cites W2902579617 @default.
W4200617070 cites W2911516709 @default.
W4200617070 cites W2912605322 @default.
W4200617070 cites W2938783931 @default.
W4200617070 cites W2943864695 @default.
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W4200617070 cites W3134049543 @default.
W4200617070 cites W3135499623 @default.
W4200617070 cites W3154261570 @default.
W4200617070 cites W3179650930 @default.
W4200617070 doi "https://doi.org/10.1016/j.engfracmech.2021.108181" @default.
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