Fe83(Cox,Niy)(B11Si2P3C1)1-x,y/17(x,y=1–3)amorphous alloys with high saturation magnetic flux density(Bs)and excellent soft-magnetic properties were developed and then the microalloying and clustering effects...Fe83(Cox,Niy)(B11Si2P3C1)1-x,y/17(x,y=1–3)amorphous alloys with high saturation magnetic flux density(Bs)and excellent soft-magnetic properties were developed and then the microalloying and clustering effects were explored.The microalloying of Co and Ni improves the Bsfrom 1.65 T to 1.67–1.72 T and 1.66–1.68 T,respectively.The Ni-doped alloys exhibit better soft-magnetic properties,containing a low coercivity(Hc) of about 5.0 A/m and a high Effective permeability(μe)of(8–10)×10^3,whereas the microalloying of Co leads to a deteriorative Hc of 5.0–13.0 A/m and a μeof(5–8)×10^3.Moreover,microalloying of Ni can increase the ductile-brittle transition(DBT)temperature of the ribbons,while a totally opposite effect is found in the Co-doped alloys.The formation of dense α-Fe(Co,Ni)clusters during annealing process is used to explain the distinct effects of Co and Ni microalloying on the magnetic properties and bending toughness.展开更多
This paper reports on the preparation of Fe82.7-85.7Si2-4.9B9.2-11.2P1.5.2.7C0,8 soft magnetic amorphous alloys with a distinctly high Fe content of 93.5-95.5 wt.% by component design and composition adjustment. All a...This paper reports on the preparation of Fe82.7-85.7Si2-4.9B9.2-11.2P1.5.2.7C0,8 soft magnetic amorphous alloys with a distinctly high Fe content of 93.5-95.5 wt.% by component design and composition adjustment. All alloys can be readily fabricated into completely amorphous ribbon samples with good surface quality by the single copper roller melt-spinning method. These alloys show good bending ductility and excellent magnetic properties after annealing, i.e., low coercivity (He) of 3.3-5.9 A/m, high permeability (μe) of 5000-10000 and high flux saturation density (Bs) of 1.63-1.66 T. The mechanism of the good glass forming ability (GFA)and soft-magnetic properties are explored. The amorphous alloys with the high Fe content comparable to that of the desired high Si alloy can be promising candidates for the potential application in electric devices.展开更多
基金mainly supported by the National Natural Science Foundation of China (Grant Nos.51601206,51671206)Ningbo International Cooperation Projects (Grant No.2015D10022)Ningbo Major Project for Science and Technology (Grant No.201401B1003003)
文摘Fe83(Cox,Niy)(B11Si2P3C1)1-x,y/17(x,y=1–3)amorphous alloys with high saturation magnetic flux density(Bs)and excellent soft-magnetic properties were developed and then the microalloying and clustering effects were explored.The microalloying of Co and Ni improves the Bsfrom 1.65 T to 1.67–1.72 T and 1.66–1.68 T,respectively.The Ni-doped alloys exhibit better soft-magnetic properties,containing a low coercivity(Hc) of about 5.0 A/m and a high Effective permeability(μe)of(8–10)×10^3,whereas the microalloying of Co leads to a deteriorative Hc of 5.0–13.0 A/m and a μeof(5–8)×10^3.Moreover,microalloying of Ni can increase the ductile-brittle transition(DBT)temperature of the ribbons,while a totally opposite effect is found in the Co-doped alloys.The formation of dense α-Fe(Co,Ni)clusters during annealing process is used to explain the distinct effects of Co and Ni microalloying on the magnetic properties and bending toughness.
基金the National Natural Science Foundation of China(Grant No.51541106)Ningbo International Cooperation Projects(Grant No.2015D10022)+2 种基金Ningbo Major Project for Science and Technology(Grant No.201401B1003003)Ningbo Natural Science Foundations(Grant No.2015A610007)General Research Fund of Hong Kong(Grant No.CityU 102013)
文摘This paper reports on the preparation of Fe82.7-85.7Si2-4.9B9.2-11.2P1.5.2.7C0,8 soft magnetic amorphous alloys with a distinctly high Fe content of 93.5-95.5 wt.% by component design and composition adjustment. All alloys can be readily fabricated into completely amorphous ribbon samples with good surface quality by the single copper roller melt-spinning method. These alloys show good bending ductility and excellent magnetic properties after annealing, i.e., low coercivity (He) of 3.3-5.9 A/m, high permeability (μe) of 5000-10000 and high flux saturation density (Bs) of 1.63-1.66 T. The mechanism of the good glass forming ability (GFA)and soft-magnetic properties are explored. The amorphous alloys with the high Fe content comparable to that of the desired high Si alloy can be promising candidates for the potential application in electric devices.
