Korean Institute of Surface Engineering

pISSN : 1225-8024 | eISSN : 3399-8403


공학

한국표면공학회지 (49권2호 211-217)

Formation of Multi-Component Boride Coatings Containing V and/or Cr and Evaluation of Their Properties

바나듐 및 크롬을 포함하는 다 성분 Boride 코팅의 생성 및 특성 평가

이의열;윤상혁;김종하;
Lee, Euiyeol;Yoon, Sanghyun;Kim, Jongha;

안동대학교 신소재공학부 금속재료공학과;
Department of Materials Science and Engineering, Andong National University;

DOI : 10.5695/JKISE.2016.49.2.211

Abstract

Boride coating applied on steam turbine parts of power plants has provided good particle erosion resistance under temperature of $550^{circ}C$, but it isn`t able to protect the parts effectively any more in ultra super critical (USC) steam turbine which is being operated up to temperature of $650^{circ}C$. To ensure stable durability for USC steam turbine parts, an alternative coating replacing boride coating should be developed. In this study, multi-component boride coatings containing elements such as chromium (Cr) and vanadium (V) were formed on base metal (B50A365B) using thermochemical treatment method called by pack cementation. The thermochemical treatments involve consecutive diffusion of boron(B) and Cr or/and V using pack powders containing diffusion element sources, activators and diluents. The top layer of Cr-boride coating is primarily consisted of $Cr_2B_3$ and $Cr_5B_3$, while that of V-boride coating is mostly consisted of $VB_2$ and $V_2B_3$. The (Cr,V)-boride coating is consisted of $Cr_2B_3$, $Cr_5B_3$ and $V_2B_3$ mostly. The top surfaces of 3 multi-component boride coatings show hardness of $3200-3400H_v$, which is much higher than that of boride, about $1600-2000H_v$. In 5 wt.% NaCl solution immersion tests, the multi-component boride coatings show much better corrosion resistance than boride coating.

Keywords

Ultra super critical steam turbine;Boride coating;Multi-component boride coating;