Hydrothermal Corrosion of First-Generation Dual-Purpose Coatings on Silicon Carbide for Accident-Tolerant Fuel Cladding

ABSTRACTSilicon carbide (SiC) has a potential to replacement zircaloy as fuel cladding material due to its high temperature tolerance, chemical stability and low neutron affinity. These characteristics may improve the economic and safety of nuclear reactors. Previous work has examined the possible use of SiC as a fuel cladding material in a PWR (Pressurized Water Reactor) environment. However, the advantage thermo mechanical and neutronic analysis replacement zircaloy cladding is not clear. Literature reviews has been done to predict the thermo mechanical behavior of SiC in high temperatures. The neutronic analysis was made using the SCALE 6.0 (Standardized Computer Analysis for Licensing Evaluation) code. This codes system is widely accepted and used worldwide for safety analysis and criticality of nuclear reactors has been utilized to model a typical fuel element of a PWR. It was used the CSAS6 and TRITON modules. The goals are to evaluate the behavior of the infinite multiplication factor (kinf) and neutron flux using SiC as a fuel cladding material.

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Effect of Slit Shape on Joinability of Zircaloy - SiC/SiC Composite Tube Joint with Titanium Powder

Materials Science Forum ◽

10.4028/www.scientific.net/msf.941.1944 ◽

2018 ◽

Vol 941 ◽

pp. 1944-1949

Author(s):

Hisashi Serizawa ◽

Yuji Sato ◽

Naofumi Nakazato ◽

Masahiro Tsukamoto ◽

Hirotatsu Kishimoto

Keyword(s):

Silicon Carbide ◽

Laser Irradiation ◽

Titanium Powder ◽

Shape Effect ◽

Silicon Carbide Fiber ◽

Fuel Cladding ◽

Cutting Method ◽

Composite Tube ◽

Carbide Matrix ◽

Zircaloy Tube

As for the fuel cladding in the light-water reactor, silicon carbide fiber reinforced silicon carbide matrix (SiC/SiC) composite is one of the promising candidates as a replacement of Zircaloy due to many superiorities, where it is necessary to develop the end-cap seal of SiC/SiC composite cladding. In this research, the caulking method was employed as the method for sealing the end cap of SiC/SiC composite tube by Zircaloy tube where the titanium micro-powder was inserted between two tubes. The fiber laser was circumferentially irradiated on the outer surface of zircaloy tube, and the insert method of titanium powder was varied by changing the cutting method of SiC/SiC composite tube. The examinations about the slit shape effect for the flat cutting suggested that the hook slit is considered to be the best cutting method for holding the titanium powder during the laser irradiation where the width of slit should be narrower than that of laser irradiation line.

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Emergency core cooling system performance criteria for Multi-Layered Silicon Carbide nuclear fuel cladding

Nuclear Engineering and Design ◽

10.1016/j.nucengdes.2019.110280 ◽

2019 ◽

Vol 353 ◽

pp. 110280 ◽

Cited By ~ 1

Author(s):

Robby Christian ◽

Youho Lee ◽

Hyun Gook Kang

Keyword(s):

Silicon Carbide ◽

Nuclear Fuel ◽

System Performance ◽

Cooling System ◽

Performance Criteria ◽

Fuel Cladding ◽

Nuclear Fuel Cladding ◽

Core Cooling

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Development of Joining Method between Zircaloy and SiC/SiC Composite Tubes by Using Diode Laser

Materials Science Forum ◽

10.4028/www.scientific.net/msf.879.1743 ◽

2016 ◽

Vol 879 ◽

pp. 1743-1748 ◽

Cited By ~ 2

Author(s):

Hisashi Serizawa ◽

Yuuki Asakura ◽

Hirotaka Motoki ◽

Daisuke Tanigawa ◽

Masahiro Tsukamoto ◽

...

Keyword(s):

Silicon Carbide ◽

Laser Irradiation ◽

Diode Laser ◽

Outer Surface ◽

Fuel Cladding ◽

Composite Tubes ◽

Laser Beam Irradiation ◽

Good Potential ◽

End Caps ◽

Zircaloy Tube

Silicon carbide fiber reinforced silicon carbide composite (SiC/SiC composite) is expected as a potential replacement of the current Zircaloy fuel cladding in the light-water reactor because of its many superiorities, where it is necessary to develop the end-cap seal of SiC/SiC composite cladding. In this research, the applicability of diode laser irradiation for joining between Zircaloy and SiC/SiC composite tubes was examined based on the caulking method. As the method for fitting two tubes, the screw cutting was conducted for the inner face of Zircaloy tube and the outer surface of SiC/SiC composite. In addition, as a method to improve the joinability of Zircaloy and SiC/SiC composite, titanium nanopowder was inserted into a gap between two tubes. The laser beam irradiation was circumferentially applied to the outer surface of Zircaloy tube. Although the mechanical caulking joint was successfully produced, the airtightness was insufficient for the end-caps of SiC/SiC composite cladding. However, the good adhesion between Zircaloy and SiC/SiC composite was partially produced as the result of the generation of all proportional solid solution between titanium and zirconium. Namely, it can be concluded that the circumferential diode laser irradiation with inserting titanium nanopowder between Zircaloy and SiC/SiC composite tubes would have a good potential for producing the caulking joint of two tubes.

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Ceramic Stationary Gas Turbine Program: Monolithic Ceramic Component Development Summary

Volume 4: Manufacturing Materials and Metallurgy; Ceramics; Structures and Dynamics; Controls, Diagnostics and Instrumentation; Education; IGTI Scholar Award ◽

10.1115/2001-gt-0457 ◽

2001 ◽

Cited By ~ 1

Author(s):

Mark van Roode ◽

Jeffrey R. Price ◽

David W. Richerson ◽

Vijay Parthasarathy ◽

George A. Graves

Keyword(s):

Silicon Carbide ◽

Silicon Nitride ◽

Gas Turbine ◽

First Generation ◽

Development Program ◽

Department Of Energy ◽

Silicon Nitrides ◽

Component Development ◽

Carbide Ceramics ◽

Silicon Carbide Ceramics

In the Ceramic Stationary Gas Turbine (CSGT) development program, sponsored by the U.S. Department of Energy (DOE) Offices of Industrial Technologies and Power Technologies (OIT/OPT), monolithic silicon nitride and silicon carbide ceramics were evaluated for application as structural materials for hot section components in an industrial gas turbine, the Solar Centaur 50S. First generation blades of GN10, NT164, and SN253 silicon nitrides, second generation blades of AS800 and SN281 silicon nitrides, and first generation SN-88 silicon nitride nozzles were evaluated in rigs and test engines. Hexoloy SA silicon carbide combustor liner tiles were tested in a subscale rig. The selection and evaluation of monolithic materials over the duration of the CSGT program (1992 to 2000) will be reviewed.

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