Add to ORKGThrough examination of radiation tolerance properties of amorphous silicon oxycarbide (SiOC) and crystalline Fe composite to averaged damage levels, from approximately 8 to 30 displacements per atom (dpa), we demonstrated that the Fe/SiOC interface and the Fe/amorphous FexSiyOz interface act as efficient defect sinks and promote the recombination of vacancies and interstitials. For thick Fe/SiOC multilayers, a clear Fe/SiOC interface remained and no irradiation-induced mixing was observed even after 32 dpa. For thin Fe/SiOC multilayers, an amorphous FexSiyOz intermixed layer was observed to form at 8 dpa, but no further layer growth was observed for higher dpa levels
The effect of 690 keV Xe ion irradiation at three different dosage levels, 1, 5 and 10{times}10{sup ...
Recent studies have shown that chemical immiscibility is important to achieve enhanced radiation tol...
<div><p>Enhanced irradiation tolerance in crystalline multilayers has received significant attention...
Through examination of radiation tolerance properties of amorphous silicon oxycarbide (SiOC) and cry...
The management of radiation defects and insoluble He atoms represent key challenges for structural m...
Temperature dependent He-irradiation-induced ion-beam mixing between amorphous silicon oxycarbide (S...
This study investigates the microstructural evolution and mechanical response of sputter-deposited a...
Despite recent interest in amorphous ceramics for a variety of nuclear applications, many details of...
The management of radiation defects and insoluble He atoms represent key challenges for structural m...
Amorphous ceramics with superb strength and irradiation tolerance are promising candidate materials ...
Strong, ductile, and irradiation-tolerant structural materials are in urgent demand for improving th...
Materials for applications in hostile environments, such as nuclear reactors or radioactive waste im...
Damage caused by implanted helium (He) is a major concern for material performance in future nuclear...
Amorphous SiOC films were synthesized by magnetron sputtering at room temperature with/without radio...
Nanoindentation micro-pillar splitting was employed to measure the fracture toughness (KC) of growth...
The effect of 690 keV Xe ion irradiation at three different dosage levels, 1, 5 and 10{times}10{sup ...
Recent studies have shown that chemical immiscibility is important to achieve enhanced radiation tol...
<div><p>Enhanced irradiation tolerance in crystalline multilayers has received significant attention...
Through examination of radiation tolerance properties of amorphous silicon oxycarbide (SiOC) and cry...
The management of radiation defects and insoluble He atoms represent key challenges for structural m...
Temperature dependent He-irradiation-induced ion-beam mixing between amorphous silicon oxycarbide (S...
This study investigates the microstructural evolution and mechanical response of sputter-deposited a...
Despite recent interest in amorphous ceramics for a variety of nuclear applications, many details of...
The management of radiation defects and insoluble He atoms represent key challenges for structural m...
Amorphous ceramics with superb strength and irradiation tolerance are promising candidate materials ...
Strong, ductile, and irradiation-tolerant structural materials are in urgent demand for improving th...
Materials for applications in hostile environments, such as nuclear reactors or radioactive waste im...
Damage caused by implanted helium (He) is a major concern for material performance in future nuclear...
Amorphous SiOC films were synthesized by magnetron sputtering at room temperature with/without radio...
Nanoindentation micro-pillar splitting was employed to measure the fracture toughness (KC) of growth...
The effect of 690 keV Xe ion irradiation at three different dosage levels, 1, 5 and 10{times}10{sup ...
Recent studies have shown that chemical immiscibility is important to achieve enhanced radiation tol...
<div><p>Enhanced irradiation tolerance in crystalline multilayers has received significant attention...