TY - JOUR
T1 - Improvement In The Mechanical Properties Of Different Cooling Medium-treated 56Fe25Ni16Cr Austenitic Stainless Steel For Advanced Nuclear Reactor Applications
AU - Farihin, Parikin
AU - Suharno, Bambang
AU - Dani, Mohammad
AU - Ngarayana, I. Wayan
AU - Andryansyah,
AU - Aziz, Ferhat
AU - Panitra, Mardiyanto
AU - Wardana, Rai Indra
AU - Adhika, Damar Rastri
AU - Huang, Ching An
N1 - Publisher Copyright:
© The Author(’s).
PY - 2025
Y1 - 2025
N2 - This study investigates the mechanical characteristics of 56 Fe 16 Cr 25 Ni austenitic stainless steel (ASS) that were annealed/quenched with air, water, and oil cooling media. Hardness (Vickers test), tensile (ASTM E8M-04), and Charpy impact (ASTM E23-05) tests were conducted to assess the influence of cooling media. The steel is annealed at 850◦C for 30 minutes, followed by quenching in different cooling media through the normalized air, oil and water. Microstructural analysis shows γ-austenite dendritic matrix and eutectic structure containing carbide particles. Post-annealing, a clear dendritic structure was observed compared to the normalized specimens. When ASS was quenched in air, oil, or water, its hardness increased by approximately 4%, 18%, and 14%, respectively. As the change of the cooling medium from air to water and oil, the yield strength and impact energy decrease by 59% to 33%, and 7% to 12%, respectively. However, the primary appealing force remains consistent across all media. Optical and electron microscopy were used to provide additional microstructural information, such as grain structure, precipitates, and stacking defects. This study shows that the 56 Fe 16 Cr 25 Ni ASS outperforms conventional nuclear reactor structural steels at elevated temperatures.
AB - This study investigates the mechanical characteristics of 56 Fe 16 Cr 25 Ni austenitic stainless steel (ASS) that were annealed/quenched with air, water, and oil cooling media. Hardness (Vickers test), tensile (ASTM E8M-04), and Charpy impact (ASTM E23-05) tests were conducted to assess the influence of cooling media. The steel is annealed at 850◦C for 30 minutes, followed by quenching in different cooling media through the normalized air, oil and water. Microstructural analysis shows γ-austenite dendritic matrix and eutectic structure containing carbide particles. Post-annealing, a clear dendritic structure was observed compared to the normalized specimens. When ASS was quenched in air, oil, or water, its hardness increased by approximately 4%, 18%, and 14%, respectively. As the change of the cooling medium from air to water and oil, the yield strength and impact energy decrease by 59% to 33%, and 7% to 12%, respectively. However, the primary appealing force remains consistent across all media. Optical and electron microscopy were used to provide additional microstructural information, such as grain structure, precipitates, and stacking defects. This study shows that the 56 Fe 16 Cr 25 Ni ASS outperforms conventional nuclear reactor structural steels at elevated temperatures.
KW - 56Fe16Cr25Ni austenitic stainless steel
KW - cooling medium
KW - mechanical properties
KW - microstructures
UR - http://www.scopus.com/inward/record.url?scp=85205344505&partnerID=8YFLogxK
U2 - 10.6180/jase.202506_28(6).0020
DO - 10.6180/jase.202506_28(6).0020
M3 - 文章
AN - SCOPUS:85205344505
SN - 1560-6686
VL - 28
SP - 1377
EP - 1384
JO - Tamkang Journal of Science and Engineering
JF - Tamkang Journal of Science and Engineering
IS - 6
ER -