Add to ORKGZirconium alloys are being commonly used as a material of choice for nuclear fuel claddings in water cooled nuclear reactors for decades due to their good corrosion resistance and low neutron absorption. However, the increasing operation conditions of next generation nuclear reactors (Gen-V) in terms of higher temperatures, pressures and higher neutron flux requires evaluation of further Zr cladding usability. The embrittlement of Zr claddings due to hydrogen pickup from reactor coolant is one of the issues for its potential use in Gen-IV reactors. Nanoindentation is an effective tool for analysis of the change of mechanical properties of hydrogen enriched Zr claddings from localised material volume. Zirconium alloy Zr-1Nb (E110) with exper...
Zirconium (Zr) and zirconium-alloys have been utilized in the nuclear industry for decades, most com...
The absorption of hydrogen in zirconium-based nuclear fuel cladding alloys is one of the most signif...
Zirconium-based alloys are currently used as fuel rod cladding in nuclear power reactors because of ...
Due to low neutron absorption cross section, high mechanical strength, high thermal conductivity and...
Zirconium based alloys are commonly used as material for fuel claddings in the light water reactors....
In light water reactors the fuel is encapsulated in Zr-based claddings that withstand the harsh envi...
AbstractIn this paper results of the characterization by SEM and TEM of Zr-1wt% Nb-0, 05wt% Fe with ...
Zr-based alloys are used in nuclear power plants because of a unique combination of very low neutron...
Zr cladding alloys have been used for many years as the first safety barrier layer of a nuclear reac...
In this work, we demonstrate and describe an effective method of protecting zirconium fuel cladding ...
The long-term safety of water-based nuclear reactors relies in part on the reliability of zirconium-...
When Zirconium claddings are exposed to irradiation and oxidation in reactor, after a certain period...
The presence of hydrogen (H) and zirconium hydrides (ZrH1.7) in Zircaloy-4 nuclear fuel cladding has...
Zirconium-based alloys used for fuel cladding in nuclear fission reactors are susceptible to hydroge...
Due to their low thermal neutron capture cross-section, adequate mechanical strength and high corros...
Zirconium (Zr) and zirconium-alloys have been utilized in the nuclear industry for decades, most com...
The absorption of hydrogen in zirconium-based nuclear fuel cladding alloys is one of the most signif...
Zirconium-based alloys are currently used as fuel rod cladding in nuclear power reactors because of ...
Due to low neutron absorption cross section, high mechanical strength, high thermal conductivity and...
Zirconium based alloys are commonly used as material for fuel claddings in the light water reactors....
In light water reactors the fuel is encapsulated in Zr-based claddings that withstand the harsh envi...
AbstractIn this paper results of the characterization by SEM and TEM of Zr-1wt% Nb-0, 05wt% Fe with ...
Zr-based alloys are used in nuclear power plants because of a unique combination of very low neutron...
Zr cladding alloys have been used for many years as the first safety barrier layer of a nuclear reac...
In this work, we demonstrate and describe an effective method of protecting zirconium fuel cladding ...
The long-term safety of water-based nuclear reactors relies in part on the reliability of zirconium-...
When Zirconium claddings are exposed to irradiation and oxidation in reactor, after a certain period...
The presence of hydrogen (H) and zirconium hydrides (ZrH1.7) in Zircaloy-4 nuclear fuel cladding has...
Zirconium-based alloys used for fuel cladding in nuclear fission reactors are susceptible to hydroge...
Due to their low thermal neutron capture cross-section, adequate mechanical strength and high corros...
Zirconium (Zr) and zirconium-alloys have been utilized in the nuclear industry for decades, most com...
The absorption of hydrogen in zirconium-based nuclear fuel cladding alloys is one of the most signif...
Zirconium-based alloys are currently used as fuel rod cladding in nuclear power reactors because of ...