Periodic ultrasound-assisted electrodeposition of Fe-Ni alloy foil

Periodic ultrasound was introduced into the electroforming process to electrodeposit Fe-Ni foil layers with high properties and low coefficient of thermal expansion that satisfied the requirements for avionics packaging. Electrochemical analysis and morphological testing indicated that periodic ultrasound can sufficiently weaken the stripping effect caused by continuous high-power ultrasonic treatment. Under periodic ultrasonic treatment, applying both high current density and high ultrasonic power in the electroforming system is possible. By adjusting the current density and the duty cycle, Fe-Ni deposits with coefficients of thermal expansion (CTEs) ranging from 2.96 to 6.71 x 10(-6)/degrees C were obtained. Compared to Fe-Ni alloys prepared via traditional electrodeposition methods, the Fe-Ni layers obtained in this study exhibit a larger range of CTE values and great improvements in other physical and mechanical properties. The Fe-Ni alloy foil obtained at a duty cycle of 0.57 and current density of 1 A/dm(2) possessed a low surface roughness of 0.95 mu m, the iron content of 63 wt.%, micro-hardness of 373.1 HV, Young's modulus of 133.7 MPa, and CTE of 5.39 x 10(-6)/degrees C.

Automated summary

Periodic ultrasound was introduced into the electroforming process to electrodeposit high-performance Fe-Ni foil layers. This method can effectively weaken the stripping effect caused by continuous high-power ultrasonic treatment, leading to Fe-Ni layers with a wider range of CTE values and improved physical and mechanical properties.