Symposium FJ
Materials Challenges for Future Nuclear Fission and Fusion Technologies
Programme Chair:
Hua-Tay LIN, Oak Ridge National Laboratory, USA
Members:
Jarir AKTAA, Karlsruhe Institute of Technology, Germany
Alfredo CARO, Los Alamos National Laboratory, USA
Michel CHATELIER, CEA Cadarache, France
Xiaojun CHEN, China Academy of Engineering Physics, China
V.M. CHERNOV, Bochvar Institute, Russia
Yong DAI, Paul Scherrer Institut, Switzerland
Xuru DUAN, Southwestern Institute of Physics, China
Sergei DUDAREV, UKAEA, Culham Centre for Fusion Energy, UK
Eric R. HODGSON, Euratom/CIEMAT Fusion Association, Spain
Bong Guen HONG, Chonbuk National University, Korea
Ji-Jung KAI, National Tsing Hua University, Taiwan
Yutai KATOH, Oak Ridge National Laboratory, USA
Akihiko KIMURA, Kyoto University, Japan
Rick KURTZ, Pacific Northwest National Laboratory, USA
Marion LE FLEM, CEA Saclay, France
Jochen LINKE, Forschungszentrum Jülich, Germany
Guang-Hong LU, Beihang University, China
Guang-Nan LUO, Institute of Plasma Physics, CAS, China
Nigel MARKS, Curtin University, Australia
Takeo MUROGA, National Institute for Fusion Science, Japan
Maylise NASTAR, CEA Saclay, France
Robert ODETTE, University of California, Santa Barbara, USA
Ji Yeon PARK, KAERI, Korea
Shuming PENG, China Academy of Engineering Physics, China
Aldo PIZZUTO, ENEA, Centro Richerche Frascati, Italy
Baldev RAJ, PSG Institutions, India
Marek RUBEL, Royal Institute of Technology, Sweden
Leo SANNEN, SCK / CEN, Belgium
Tatsuo SHIKAMA, Tohoku University, Japan
Naoki SONEDA, CRIEPI, Japan
R.E. STOLLER, Oak Ridge National Laboratory, USA
Yugang WANG, Peking University, China
Thierry WISS, Institute for Transuranium Elements, JRC, Germany
Yican WU, Institute of Nuclear Energy Safety Technology, CAS, China
Michio YAMAWAKI, University of Fukui, Japan
Steve J. ZINKLE, Oak Ridge National Laboratory, USA
Hua-Tay LIN, Oak Ridge National Laboratory, USA
Members:
Jarir AKTAA, Karlsruhe Institute of Technology, Germany
Alfredo CARO, Los Alamos National Laboratory, USA
Michel CHATELIER, CEA Cadarache, France
Xiaojun CHEN, China Academy of Engineering Physics, China
V.M. CHERNOV, Bochvar Institute, Russia
Yong DAI, Paul Scherrer Institut, Switzerland
Xuru DUAN, Southwestern Institute of Physics, China
Sergei DUDAREV, UKAEA, Culham Centre for Fusion Energy, UK
Eric R. HODGSON, Euratom/CIEMAT Fusion Association, Spain
Bong Guen HONG, Chonbuk National University, Korea
Ji-Jung KAI, National Tsing Hua University, Taiwan
Yutai KATOH, Oak Ridge National Laboratory, USA
Akihiko KIMURA, Kyoto University, Japan
Rick KURTZ, Pacific Northwest National Laboratory, USA
Marion LE FLEM, CEA Saclay, France
Jochen LINKE, Forschungszentrum Jülich, Germany
Guang-Hong LU, Beihang University, China
Guang-Nan LUO, Institute of Plasma Physics, CAS, China
Nigel MARKS, Curtin University, Australia
Takeo MUROGA, National Institute for Fusion Science, Japan
Maylise NASTAR, CEA Saclay, France
Robert ODETTE, University of California, Santa Barbara, USA
Ji Yeon PARK, KAERI, Korea
Shuming PENG, China Academy of Engineering Physics, China
Aldo PIZZUTO, ENEA, Centro Richerche Frascati, Italy
Baldev RAJ, PSG Institutions, India
Marek RUBEL, Royal Institute of Technology, Sweden
Leo SANNEN, SCK / CEN, Belgium
Tatsuo SHIKAMA, Tohoku University, Japan
Naoki SONEDA, CRIEPI, Japan
R.E. STOLLER, Oak Ridge National Laboratory, USA
Yugang WANG, Peking University, China
Thierry WISS, Institute for Transuranium Elements, JRC, Germany
Yican WU, Institute of Nuclear Energy Safety Technology, CAS, China
Michio YAMAWAKI, University of Fukui, Japan
Steve J. ZINKLE, Oak Ridge National Laboratory, USA
Theodore BESMANN, Oak Ridge National Laboratory, USA
Jean-Louis BOUTARD, CEA Saclay, France
Thak-Sang BYUN, Oak Ridge National Laboratory, USA
Zhenqi CHANG, University of Science and Technology of China, China
V.M. CHERNOV, JSC "A.A. Bochvar Institute", Russia
Sergei DUDAREV, UKAEA, UK
Chu Chun FU, CEA/DEN/DANS/DMN/SRMP, Centre de Saclay, France
Ermile GAGANIDZE, Karlsruhe Institute of Technology, Germany
Tammana JAYAKUMAR, Indira Gandhi Centre for Atomic Research, India
Yutai KATOH, Oak Ridge National Laboratory, USA
Kenji KONASHI, Tohoko University, Japan
Jochen LINKE, Forschungszentrum Jülich, Germany
Christian LINSMEIER, Forschungszentrum Juelich, Germany
Shaojun LIU, Institute of Nuclear Energy Safety Technology, China
Jaime MARIAN, Lawrence Livermore National Lab., USA
Stephane MATHIEU, University of Lorraine, France
Anton MOESLANG, Karlsruhe Institute of Technology, Germany
Gerald PINTSUK, Forschungszentrum Juelich, Germany
Marek RUBEL, Royal Institute of Technology, Sweden
Leo SANNEN, SCK / CEN, Belgium
Tatsuo SHIKAMA, Tohoku University, Japan
Naoki SONEDA, CRIEPI, Japan
Izabela SZLUFARSKA, University of Wisconsin, Madison, USA
Lisa VENTELON / Francois WILLAIME, CEA Saclay, France
Eiichi WAKAI, Japan Atomic Energy Agency, Japan
Thierry WISS, Institute for Transuranium Elements, JRC, Germany
Jean-Louis BOUTARD, CEA Saclay, France
Thak-Sang BYUN, Oak Ridge National Laboratory, USA
Zhenqi CHANG, University of Science and Technology of China, China
V.M. CHERNOV, JSC "A.A. Bochvar Institute", Russia
Sergei DUDAREV, UKAEA, UK
Chu Chun FU, CEA/DEN/DANS/DMN/SRMP, Centre de Saclay, France
Ermile GAGANIDZE, Karlsruhe Institute of Technology, Germany
Tammana JAYAKUMAR, Indira Gandhi Centre for Atomic Research, India
Yutai KATOH, Oak Ridge National Laboratory, USA
Kenji KONASHI, Tohoko University, Japan
Jochen LINKE, Forschungszentrum Jülich, Germany
Christian LINSMEIER, Forschungszentrum Juelich, Germany
Shaojun LIU, Institute of Nuclear Energy Safety Technology, China
Jaime MARIAN, Lawrence Livermore National Lab., USA
Stephane MATHIEU, University of Lorraine, France
Anton MOESLANG, Karlsruhe Institute of Technology, Germany
Gerald PINTSUK, Forschungszentrum Juelich, Germany
Marek RUBEL, Royal Institute of Technology, Sweden
Leo SANNEN, SCK / CEN, Belgium
Tatsuo SHIKAMA, Tohoku University, Japan
Naoki SONEDA, CRIEPI, Japan
Izabela SZLUFARSKA, University of Wisconsin, Madison, USA
Lisa VENTELON / Francois WILLAIME, CEA Saclay, France
Eiichi WAKAI, Japan Atomic Energy Agency, Japan
Thierry WISS, Institute for Transuranium Elements, JRC, Germany
Nuclear energy, both fission and fusion, will provide a clean, safe, and cost-effective sustainable energy resource, and is expected to grow significantly in order to meet future energy demand globally. This growth should proceed without adverse impacts to global environmental and climate change. To meet this grand challenge several nuclear initiatives were proposed aiming to develop advanced nuclear energy technologies and systems that would meet future needs for safe, sustainable, environmentally responsible, and economical energy. Materials technologies will play a key role to improve economics and long-term reliability of any new advanced nuclear systems. The superior structural material performance will allow higher temperature design and operation for higher thermal efficiency, longer lifetimes, and improved reliability with reduced down time. In addition to the high temperature mechanical properties, resistance to radiation damage is also a key obstacle to improve materials performance and reliability.
The International Symposium on "Materials Challenges for Future Nuclear Fission and Fusion Technologies" will provides an exciting melting pot to foster the international collaboration and crosscutting coordination to advance the science and technology of future nuclear fission and fusion energy. The symposium will focus up-to-date advances in materials research and development, nuclear components and systems design, irradiation effect and damage, and theoretical modelling for both advanced nuclear fission and fusion technologies and applications. Advanced materials such as high-temperatures metals, superalloys, ceramics, metal- and ceramic-matrix composites, and functional materials and coatings will be of interest. Basic scientific understanding of radiation effect and damage to the materials microstructure and properties via theoretical modelling and experiments relevant to fission and fusion application environment will also be covered.
The International Symposium on "Materials Challenges for Future Nuclear Fission and Fusion Technologies" will provides an exciting melting pot to foster the international collaboration and crosscutting coordination to advance the science and technology of future nuclear fission and fusion energy. The symposium will focus up-to-date advances in materials research and development, nuclear components and systems design, irradiation effect and damage, and theoretical modelling for both advanced nuclear fission and fusion technologies and applications. Advanced materials such as high-temperatures metals, superalloys, ceramics, metal- and ceramic-matrix composites, and functional materials and coatings will be of interest. Basic scientific understanding of radiation effect and damage to the materials microstructure and properties via theoretical modelling and experiments relevant to fission and fusion application environment will also be covered.
Session Topics
FJ-1 Structural components for nuclear fission and fusion applications
- High-temperature metallic alloys and superalloys
- Metal-matrix composites
- Ceramics
- Ceramic-matrix composites
FJ-2 Low activation structural materials for nuclear fusion systems
- Ferritic and martensitic alloys
- Vanadium alloys
- SiC and SiC matrix composites
FJ-3 Materials for first wall components of nuclear fusion systems
- Plasma facing materials
- Blanket materials
FJ-4 Functional materials
- Insulators
- Superconducting magnets
- Coatings
- Processing, microstructure, and properties relationship
- Oxide-base nuclear fuels
- Metal-base nuclear fuels
- Thermomechanical modelling
- Recycle of nuclear fuels
- Fuel cladding materials
FJ-6 Radiation effects
- Defect production and properties
- Microstructure evolution
- Mechanical property changes
- He and H effects
- Theoretical modelling
FJ-7 Materials modelling and database
- Modelling of performance
- System design and modelling
- Materials and mechanical properties database
FJ-8 Crosscutting materials issues for nuclear fission and fusion systems
FJ-9 Systems integration and interface design and components
Special Session FJ-10
Materials Technology for Nuclear Waste Treatment and Disposal