Magnetic properties of fine iron-cobalt-nickel alloy powders

“…Magnetic film plays an important role in various advanced applications, such as micro and nanoelectromechanical systems (MEMS, NEMS), electronic sensors, and magnetic recording head cores in data storage devices. Due to their high saturation magnetization (B s ) and low coercivity (H c ), soft magnetic films are favorable for these practices [1][2][3][4], and various soft magnetic materials have been developed and explored, including NiFe-based and CoFe-based films.…”

“…Zong et al developed electrodeposited CoFe films with boron doping that exhibited low coercivity of 6.5 Oe in easy direction and 24.5 kG saturation magnetization [7]. While soft magnetic films could be fabricated by several techniques [1,2], by far, electrodeposition stands as one of the most attractive processing routes, owing to ease of production, low cost, and its ability to precisely control a film thickness. Various processing parameters in the electrodeposition including bath compositions, applied current profiles, additives' types and contents and plating durations can contribute to the magnetic responses of the films.…”

Influence of the Electrodeposited Co-Fe Alloys’ Characteristics on their Magnetic Properties

“…Magnetic film plays an important role in various advanced applications, such as micro and nanoelectromechanical systems (MEMS, NEMS), electronic sensors, and magnetic recording head cores in data storage devices. Due to their high saturation magnetization (B s ) and low coercivity (H c ), soft magnetic films are favorable for these practices [1][2][3][4], and various soft magnetic materials have been developed and explored, including NiFe-based and CoFe-based films.…”

“…Zong et al developed electrodeposited CoFe films with boron doping that exhibited low coercivity of 6.5 Oe in easy direction and 24.5 kG saturation magnetization [7]. While soft magnetic films could be fabricated by several techniques [1,2], by far, electrodeposition stands as one of the most attractive processing routes, owing to ease of production, low cost, and its ability to precisely control a film thickness. Various processing parameters in the electrodeposition including bath compositions, applied current profiles, additives' types and contents and plating durations can contribute to the magnetic responses of the films.…”

Influence of the Electrodeposited Co-Fe Alloys’ Characteristics on their Magnetic Properties

Corrosion resistance of very fine iron and iron-coblat-nickel alloy powders