In situ fatigue of the Eurofer 97 steel
Author:
Publisher
Elsevier BV
Subject
Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics
Reference11 articles.
1. High strain fatigue properties of F82H ferritic–martensitic steel under proton irradiation
2. In-beam fatigue of a ferritic-martensitic steel. First results
3. Fatigue tests on a ferritic-martensitic steel at 420°C: Comparison between in-situ and postirradiation properties
4. In-beam mechanical testing of CuCrZr
5. PIREX II — A new irradiation facility for testing fusion first wall materials
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1. Status and improvement of CLAM for nuclear application;Nuclear Fusion;2017-07-14
2. Microstructure evolution during cyclic tests on EUROFER 97 at room temperature. TEM observation and modelling;Materials Science and Engineering: A;2012-07
3. Assessment of design limits and criteria requirements for Eurofer structures in TBM components;Journal of Nuclear Materials;2011-07
4. Fatigue cracks in Eurofer 97 steel: Part I. Nucleation and small crack growth kinetics;Journal of Nuclear Materials;2011-05
5. Fatigue behaviour of ODS ferritic-martensitic Eurofer steel;Procedia Engineering;2010-04
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