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Characterization of Hot Isostatically Pressed Ni-Based Superalloy IN 713C
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HOME > J Korean Powder Metall Inst > Volume 20(4); 2013 > Article
열간 등압 성형된 니켈기 초내열 합금 IN 713C 분말 소결체의 특성 평가
김영무, 김은표, 정성택, 이성, 노준웅, 이성호, 권영삼
Characterization of Hot Isostatically Pressed Ni-Based Superalloy IN 713C
Youngmoo Kim, Eun-Pyo Kim, Seong-Taek Chunga, Seong Lee, Joon-Woong Noh, Sung Ho Lee, Young-Sam Kwon
Journal of Korean Powder Metallurgy Institute 2013;20(4):264-268
DOI: https://doi.org/10.4150/KPMI.2013.20.4.264
1국방과학연구소 국방소재기술부
2국방과학연구소 국방소재기술부
3(주)쎄타텍
4국방과학연구소 국방소재기술부
5국방과학연구소 국방소재기술부
6국방과학연구소 국방소재기술부
7(주)쎄타텍
1Defense Materials and Evaluation Technology Directorate, Agency for Defense Development
2Defense Materials and Evaluation Technology Directorate, Agency for Defense Development
3Cetatech. Co. GTIC
4Defense Materials and Evaluation Technology Directorate, Agency for Defense Development
5Defense Materials and Evaluation Technology Directorate, Agency for Defense Development
6Defense Materials and Evaluation Technology Directorate, Agency for Defense Development
7Cetatech. Co. GTIC
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Abstract

Nickel-based superalloy IN 713C powders have been consolidated by hot isostatic pressing (HIPing). The microstructure and mechanical properties of the superalloys were investigated at the HIPing temperature ranging from 1030°C to 1230°C. When the IN 713C powder was heated above gammaprime solvus temperature (about 1180°C), the microstructure was composed of the austenitic FCC matrix phase gamma plus a variety of secondary phases, such as gammaprime precipitates in gamma matrix and MC carbides at grain boundaries. The yield and tensile strengths of HIPed specimens at room temperature were decreased while the elongation and reduction of area were increased as the processing temperature increased. At 700°C, the strength was similar regardless of HIPing temperature; however, the ductility was drastically increased with increasing the temperature. It is considered that these properties compared to those of cast products are originated from the homogeneity of microstructure obtained from a PM process.

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