Tags
Corossion, Damage Mechanisms, Fracture Mechanics, HEDE, HELP, High Temperature Hydrogen Attack, Hydrogen Embrittlement, Hydrogen Embrittlement Mechanism, Hydrogen Enhanced Decohesion (HEDE), Hydrogen storage, Hydrogen-Enhanced Local Plasticity (HELP), Iron, Materials, Materials Characterization, Materials Science, Mechanical Properties, Steel
Dear colleagues and friends,
I am pleased to inform you that the three comprehensive review papers about hydrogen embrittlement phenomena, foresaw in this special issue (SI) are published. They will be collected soon together with other papers within the dedicated webpage about this SI.
https://doi.org/10.1016/j.engfracmech.2019.106502
- Milos B. Djukic, Associate Professor. (Managing Guest Editor of the SI ), Department of Engineering Materials and Welding, University of Belgrade, Faculty of Mechanical Engineering, Serbia (The chair of the HE Special Symposium, ECF22 – http://www.ecf22.rs/minisymp.html – click on More Info…),
- Prof. William Curtin, École, Polytechnique Fédérale de Lausanne (EPFL), Switzerland (Member of EFM Editorial Advisory Board and the co-chair of the HE Special Symposium, ECF22),
- Prof. Zhiliang Zhang, Norwegian University of Science & Technology NTNU, Trondheim, Norway (Member of EFM Editorial Advisory Board and the co-chair of the HE Special Symposium, ECF22) and
- Prof. Aleksandar Sedmak, Department of Engineering Materials and Welding, University of Belgrade, Faculty of Mechanical Engineering, Serbia (The Chair of ECF 22 – http://www.ecf22.rs/)
We should provide some breakthrough in hydrogen embrittlement understanding (modeling and experiments) and future research framework with research and review papers which will be published in this SI. This SI will be published during 2019. The number of expected papers to be published in this special issue (SI) is 20.
his post is a part of:
The Network of Excellence (NoE) in Hydrogen Embrittlement
The Network of Excellence (NoE) in Hydrogen Embrittlement aims to strengthen scientific and technological excellence by developing an integrated and interdisciplinary scientific approach, and also by addressing the fragmentation of European and Worldwide research in this area.
The Network of Excellence in Hydrogen Embrittlement is structured so that it consists of the following branches:
- Hydrogen Embrittlement Group on LinkedIn
- Hydrogen Embrittlement – Understanding and research framework Project
on ResearchGate - Hydrogen Embrittlement Group on Mendeley
- Hydrogen Embrittlement and Materials Science Blog on WordPress
- Research Topic titled “Hydrogen Embrittlement Mechanisms” (closed now) in collaboration with Frontiers in Materials Journal within Corrosion Research section
- Damage and Fracture Mechanism Group on LinkedIn
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Hydrogen Embrittlement & Materials Science by Milos Djukic is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License.