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Influences of Electrodeposition Variables on Mechanical Properties of Ni-Mn Electrodepositions

Ni-Mn 전착층의 기계적 성질에 미치는 공정조건의 영향

  • Shin, Ji-Wung (Department of Materials Science and Engineering, Inha University) ;
  • Yang, Seung-Gi (Department of Materials Science and Engineering, Inha University) ;
  • Hwang, Woon-Suk (Department of Materials Science and Engineering, Inha University)
  • Received : 2014.06.20
  • Accepted : 2014.06.27
  • Published : 2014.06.30

Abstract

Nickel electrodeposition from sulfamate bath has several benefits such as low internal stress, high current density and good ductility. In nickel deposited layers, sulfur induces high temperature embrittlement, as Ni-S compound has a low melting temperature. To overcome high temperature embrittlement problem, adding manganese is one of the good methods. Manganese makes Mn-S compound having a high melting temperature above $1500^{\circ}C$. In this work, the mechanical properties of Ni-Mn deposited layers were investigated by using various process variables such as concentration of Mn$(NH_2SO_3)_2$, current density, and bath temperature. As the Mn content of electrodeposited layers was increased, internal stress and hardness were increased. By increasing current density, internal stress increased, but hardness decreased. With increasing the bath temperature from 55 to $70^{\circ}C$, internal stress of Ni deposit layers decreased, but hardness didn't change by bath temperature. It was likely that eutectoid manganese led to lattice deformation, and the lattice deformation increased hardness and internal stress in Ni-Mn layers. Increasing current density and decreasing bath temperature would increase a mount of $H_2$ absorption, which was a cause for the rise of internal stress.

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