LWR
- Corrosion & EAC in LWR environments
- Evaluation of corrosion resistance and characterization of oxide lagers of austenitic alloys and welds
- Environmentally-Assisted Fatigue(EAF) of austenitic Alloys
- Primary water stress corrosion cracking of austenitic alloys
- Evaluation of corrosion resistance for candidate ATF cladding materials
- Pitting and Chloride Induced SCC (CISCC) resistance evaluation for dry storage canister
- Zr-based alloys
- Pressurized thermal shock of RPV
- Evaluation of 3D printing for nuclear application
- Alumina-forming Duplex Stainless Steels (ADSS) for ATF application
- Development of nano carbide dispersed advanced radiation resistant austenitic stainless Steels
- Development of high strength canister material with improved CISCC resistance
- Thermal aging embrittlement of CASS and ASSW
- Assessment of thermal aging embrittlement of ferritic and duplex stainless steels
- Irradiation embrittlement and swelling of stainless steel welds
- Evaluation of radiation resistance for austenitic stainless steels
Advanced Reactor
Advanced Power System
Advanced Power System
Nuclear & High Temperature Materials Lab
Nuclear Materials Laboratory can be described as a goal that economics and public acceptance of NPP (Nuclear Power Plant) consolidate through maintenance of integrity during the NPP's lifetime.
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Corrosion & EAF in LWR
-
High Temperature
Oxidation -
>
Thermal Aging
& Radiation Damage -
Advanced Fabrication
Process -
Advanced Alloy
Development -
Fusion materials
Corrosion & EAF in LWR
Corrosion & EAF in LWR
- Corrosion & EAC in LWR environments
- Evaluation of corrosion resistance and characterization of oxide lagers of austenitic alloys and welds
- Environmentally-Assisted Fatigue(EAF) of austenitic Alloys
- Primary water stress corrosion cracking of austenitic alloys
- Evaluation of corrosion resistance for candidate ATF cladding materials
- Pitting and Chloride Induced SCC (CISCC) resistance evaluation for dry storage canister
- Zr-based alloys
- Pressurized thermal shock of RPV
High Temperature Oxidation
High Temperature Oxidation
- High temperature oxidation for advanced power systems
- Compatibility of structural materials for high temperature supercritical-carbon dioxide systems
- Corrosion behavior of structural materials for high temperature gas reactors
- Surface modification for improvement of corrosion behaviors in high temperature environments
Thermal Aging & Radiation Damage
Advanced fabrication process
Advanced fabrication process
Advanced alloy development
Advanced alloy development
- Alumina-forming Duplex Stainless Steels (ADSS) for ATF application
- Development of nano carbide dispersed advanced radiation resistant austenitic stainless Steels
- Development of austenitic stainless steels with enhanced creep-strength
- Development of high strength canister material with improved CISCC resistance
- Development of modified alloy 617 for improved oxidation and creep resistance
