Korean Institute of Surface Engineering

pISSN : 1225-8024 | eISSN : 3399-8403


공학

한국표면공학회지 (38권1호 21-27)

Tensile Properties of Nickel Electroform(l)

니켈 전주층의 인장 물성(1)

김인곤;이재근;강경봉;권식철;김만;이주열;
Kim I.;Lee J.;Kang K.;Kwon S.C.;Kim M.;Lee J.Y.;

동의대학교 재료금속공학과;한국기계연구원 표면연구부;
Dept. of Materials and Metallurgical Engineering, Dong-eui University;Dept. of Surface Engineering, Korea Institute of Machinery & Materials;

Abstract

Tensile properties and hardness of nickel electroform from chloride-free nickel sulfamate electrolyte at 50℃ and PH 4.5 were investigated. Current density varied from 20 to 60 mA/㎠. The deposit thicknesses were 360, 480 and 980 ㎛. It was found in 480 ㎛ thick electroform that highest tensile and yield strengths and hardness of 83.7 ksi, 53.6 ksi and 216 DPH, respectively were obtained at a current density of 40 mA/㎠ and they were slightly decreased at 20 and 60 mA/㎠. However the ductility was lowest of 7.9% at 40 mA/㎠. Such a high strength and low ductility at 40 mA/㎠ seems to be related to the narrower columnar structure than those of other current densities. All the deposits exhibited pronounced necking behavior. Tensile strength, yield strength and ductility increased as the nickel electroform thickens. Initial strong (200) texture developed on stainless steel mandrel decreased and (111) and (220) textures increased as deposit thickness increased, whereas (200) texture was preferred as the current density increased.

Keywords

Nickel electroform;Tensile strength;Yield strength;Ductility;Hardness;