汇报标题 (Title):基于增材造作的FM-ODS合金研发进展(Additive manufacturing based FM-ODS Alloy Development)
汇报人 (Speaker):Suk Hoon Kang钻研员(韩国原子能钻研院)
汇报功夫 (Time):2024年12月6日(周五) 9:00
汇报地址 (Place):校本部复合伙料钻研中心一楼会议室A101
约请人(Inviter):毛幼东 钻研员
主办部门:理学院纳米中心
汇报提要:Hardfacing alloys should be resistant to severe deformation and wear in nuclear reactors while minimizing gamma radionuclides such as cobalt at the same time. Oxide dispersion strengthened (ODS) ferritic/martensitic (FM) steel is a candidate hardfacing material for nuclear reactors because yttrium-based nano oxides resist deformation and wear. FM-ODS steel powders are conventionally fabricated with ball milling to disperse nano yttria in FM steel powder. However, nano yttria inside the ODS powders are frequently agglomerated during laser-directed energy deposition (L-DED) process. Recently, dissolving yttrium during the gas atomization process is an alternative way to produce ODS powders but yttrium is highly reactive with ceramic crucible. In this study, FM-ODS steel powder was produced by electron induction melting gas atomization (EIGA) process without using crucible. Powder morphology and microstructure were observed using a scanning electron microscope (SEM) and SEM-energy dispersive X-ray spectroscopy (EDS). The size distribution and number density of yttria were calculated with transmission electron microscope (TEM). The nanohardness of EIGA ODS powders were conducted at 10mN force.
