Corossion, Damage Mechanisms, HEDE, HELP, Hydrogen Embrittlement, Hydrogen Embrittlement Mechanism, Hydrogen Enhanced Decohesion (HEDE), Hydrogen-Enhanced Local Plasticity (HELP), Materials, Materials Characterization, Materials Science, Mechanical Properties, Steel
The 3rd International Conference on Metals and Hydrogen “SteelyHydrogen2018” gathered 177 participants from 27 countries. The conference focused on hydrogen embrittlement of metals with a targeted balance between academic research and industrial experience. The expanded scope, including aluminium, titanium and nickel based alloys, resulted in highly appreciated dedicated sessions on these topics. We are convinced this opened new perspectives in providing insights with regard to hydrogen related issues.
I presented a paper – poster titled:
Model of Simultaneous Action in a Cooperative Manner of Hydrogen Embrittlement Mechanisms (HELP + HEDE) in Low Carbon Steel and Their Effects on Mechanical Properties
By: Milos B. Djukic, Gordana M. Bakic, Bratislav Rajicic, Vera Sijacki Zeravcic, Aleksandar Sedmak, Radivoje Mitrovic and Zarko Miskovic
University of Belgrade, Faculty of Mechanical Engineering, Serbia
at the “SteelyHydrogen2018” Conference
Our recent article (2015):
M.B. Djukic, V. Sijacki Zeravcic, G.M. Bakic, A. Sedmak, B. Rajicic, Hydrogen damage of steels: A case study and hydrogen embrittlement model, Engineering Failure Analysis, 2015, Volume 58, Part 2, pp. 485–498
About model of simultaneous action of hydrogen embrittlement mechanisms (HELP+HEDE) in steel and their effects on Mechanical Properties
Our recent article (2016):
Milos B. Djukic, Gordana M. Bakic, Vera Sijacki Zeravcic, Aleksandar Sedmak, and Bratislav Rajicic, Hydrogen Embrittlement of Industrial Components: Prediction, Prevention, and Models. CORROSION. 2016; 72(7): 943-961., http://dx.doi.org/10.5006/1958
A background for the analysis of the viable hydrogen embrittlement mechanisms: hydrogen-enhanced localized plasticity (HELP) and hydrogen-enhanced decohesion (HEDE) in a ferritic-pearlitic carbon steel and development of a model for structural integrity analysis is a literature overview about the current state of the art in hydrogen embrittlement modeling and studies (140 References), presented in this paper.
This post is a part of:
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” (now closed) in collaboration with Frontiers in Materials Journal within Corrosion Research section
- Damage and Fracture Mechanism Group on LinkedIn
The Network of Excellence (NoE) in Hydrogen Embrittlement logo, Copyrights by Milos Djukic all rights reserved © 2013, 2014
Hydrogen Embrittlement & Materials Science by Milos Djukic is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License.