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• W4281490202 abstract "Nuclear energy science is nothing new, since World War II (WW II) and the successful Manhattan Project started in the deserts of New Mexico around 1940’s with Fermi introducing his experimental fission reactor in basement of University of Chicago in state of Illinois. Following that project and the exploring application of atom energy for peaceful goals using famous Einstein’s theory E=mc^2 has turned a new chapter for nuclear power energy by introducing a new source for electricity production. Fusion nuclear power generation that totally works in opposite direction that of fission nuclear power by splitting atoms nuclei of high Z-materials such as Uranium (U) or Plutonium (Pu), it uses the technology of thermonuclear reaction concepts driven by two isotopes of Hydrogen elements mainly Deuterium (D) and Tritium (T). Recent progress in research towards the development of fusion power driven by means of magnetic confinement approach, using reactor such as Tokamak device and the impressive advances research made in this particular reactor in the past few years, seems very promising to strike break-even of thermonuclear driven fusion reaction taking into consideration approach of Magnetic Confinement Fusion (MCF). Tokamak devices currently under construction will demonstrate the break-even condition or scientific feasibility of fusion power. Exciting and innovative ideas in mirror magnetic confinement are expected to culminate in high-Q devices making open-ended confinement a serious contender for fusion reactors. However, with such an innovative approach comes its own technical challenges associated with the machinery such as Tokamak that internally requires in a harsh temperature that in nature can be seen at the surface of our Sun, thus we are in need of materials that can sustain such high-temperature heat and be able to maintain their integrity and extend the life-cycle of such device while in full commercial operation within period of 24x7x360. Here in this Technical Memorandum (TM), we discuss potential materials that are possibly can deliver such sustainability one need them to operate within high-temperature and maintain their both physical and chemical properties from physics of solid-states point of view. With also today’s research in Nanotechnology and Memory-metals reaching to such a goal seems to be achievable, which is subject of this Technical Memorandum (TM)" @default.
• W4281490202 created "2022-05-26" @default.
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• W4281490202 date "2022-06-30" @default.
• W4281490202 modified "2023-09-27" @default.
• W4281490202 title "Functional Materials for Fusion Nuclear Power Cores (A Technical Memorandum)" @default.
• W4281490202 doi "https://doi.org/10.47363/jmsmr/2022(3)129" @default.
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