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Chemistry
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核材料在核电厂事故模拟条件下的激光加热和辐射光谱研究
JoVE Journal
Chemistry
This content is Free Access.
JoVE Journal
Chemistry
Laser-heating and Radiance Spectrometry for the Study of Nuclear Materials in Conditions Simulating a Nuclear Power Plant Accident
Please note that all translations are automatically generated.
Click here for the English version.
核材料在核电厂事故模拟条件下的激光加热和辐射光谱研究
DOI:
10.3791/54807-v
•
09:18 min
•
December 14, 2017
•
Dario Manara
,
Luca Soldi
2,4
,
Sara Mastromarino
3,5
,
Kostantinos Boboridis
,
Davide Robba
,
Luka Vlahovic
,
Rudy Konings
1
European Commission, Joint Research Centre
,
2
Energy Department
,
Politecnico di Milano
,
3
Department of Chemical Physics
,
Sapienza – Università di Roma
,
4
CEA Saclay
,
5
TU Delft
Chapters
00:05
Title
01:09
Pyrometer and Sample Preparation
03:42
Laser Heating and Radiance Spectro-pyrometry
05:58
Results: Emissivity and Phase Transition Analysis
07:25
Conclusion
Summary
Automatic Translation
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Automatic Translation
我们目前的实验中, 真正的核燃料, 熔覆和密封材料是激光加热到超过 3000 K 的温度, 而他们的行为是通过辐射光谱和热分析研究。这些实验在实验室规模上模拟了核反应堆核心熔化后形成的熔岩相。
Tags
Laser-heating
Radiance Spectrometry
Nuclear Materials
Nuclear Power Plant Accident
Core Meltdown
Corium
Thermomechanical Stability
Refractory Ceramics
High-temperature Superalloys
Aerospace Coatings
High Temperatures
Thermodynamic Equilibrium
Two-channel Pyrometer
Spectro-pyrometer
Controlled Atmosphere Autoclave Reactor
Laser-absorbing Graphite Screen
High-power Laser Fiber-optic System
Argon Ion Laser
Optical Alignment
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