Korean Institute of Surface Engineering

pISSN : 1225-8024 | eISSN : 3399-8403


공학

한국표면공학회지 (37권2호 80-85)

Electro-deposition and Crystallization Behaviors of Cr-C and Cr-C-P Alloy Deposits Prepared by Trivalent Chromium Sulfate Bath

황화물계 3가 크롬도금욕에서 크롬-탄소 및 크롬-탄소-인 합금도금의 전착과 결정화거동

김만;김대영;박상언;권식철;최용;
Kim, Man;Kim, Dae-Young;Park, Sang-Eon;Kwon, Sik-Chul;Choi, Yong;

한국기계연구원 표면연구부;선문대학교 신소재생명화학공학부;
Department of Surface Engineering, Korea Institute of Machinery & Materials;Division of Advanced Materials and Bio-Chemical Engineering, Sunmoon University;

Abstract

Chromium-carbon (Cr-C) and chromium-carbon-phosphorus (Cr-C-P) alloy deposits using trivalent chromium sulfate baths containing potassium formate were prepared to study their current efficiency, hardness change and phase transformations behavior with heat treatment, respectively. The current efficiencies of Cr-C and Cr-C-P alloy deposits increase with increasing current density in the range of 15-35 A/dm$^2$. Carbon content of Cr-C and phosphorous of Cr-C-P layers decreases with increasing current density, whereas, the carbon content of Cr-C-P layer is almost constant with the current density. Cr-C deposit shows crystallization at $400^{circ}C$ and has (Cr+Cr$_{ 23}$$C_{6}$) phases at $800^{circ}C$. Cr-C-P deposit shows crystallization at $600^{circ}C$ and has (Cr+Cr$_{23}$ $C_{6}$$+Cr_3$P) phases at $800^{circ}C$. The hardness of Cr-C and Cr-C-P deposits after heating treatment for one hour increase up to Hv 1640 and Hv 1540 and decrease about Hv 820 and Hv 1270 with increasing annealing temperature in the range of $400~^{circ}C$, respectively. The hardness change with annealing is due to the order of occurring of chromium crystallization, precipitation hardening effect, softening and grain growth with temperature. Less decrease of hardness of Cr-C-P deposit after annealing above $700^{circ}C$ is related to continuous precipitation of $Cr_{23}$ $C_{6}$ and $Cr_3$P phases which retard grain growth at the temperature.

Keywords

Chromium-carbon;Chromium-carbon-phosphorus;Amorphous;Trivaient chromium bath;