TC21 HYDROGEN EMBRITTLEMENT AND TRANSPORT

Chairman

Co-Chairman

Prof. Dr. Milos B. Djukic

University of Belgrade, Faculty of Mechanical Engineering

Serbia

mdjukic@mas.bg.ac.rs

Co-Chairman

Co-Chairman

Dr. Antonio Alvaro

SINTEF Industry 

Department of Mechanical and Industrial Engineering, Norwegian University of Science and Technology (NTNU) 

Norway

Dr. Emilio Martinez-Paneda 

Associate Professor of Engineering Science 

Department of Engineering Science, University of Oxford

UK

Co-Chairman

Dr. Eng. Motomichi Koyama 

Associate Professor 

Institute for Materials Research, Tohoku University 

Japan

Be always updated about the TC21 initiatives! To join the group, click on this link and then on "Join group"

TC21 Scope

Our aim is to bring together top scientists and researchers in the field of hydrogen embrittlement of structural materials, hydrogen technology, and hydrogen transport in order to present the latest achievements, the current state of the art, and the future research framework for a better understanding of hydrogen embrittlement phenomena and complex hydrogen-material interactions.

The main objective of ESIS TC21 is to enable open and productive dialogue between all disciplines which study hydrogen embrittlement phenomena from any scientific or technological perspective and which in turn are being transformed by continuous advances in materials science and materials engineering. 


The main topics:

Ongoing technical areas 

TC21 Web and professional scientific networks Subsidiaries (click on the photo or at "LINK")

Hydrogen Embrittlement - Understanding and research framework, 

ResearchGate Project

Project Goal: The proposed research framework in hydrogen embrittlement refers to the challenges and most obvious problems of how to link models, phenomenology, and morphology of hydrogen-related failures of industrial components at different scales and how to successfully translate the insights gained into outcomes of practical value to the engineering community. We are looking for partnerships and the formation of an excellent consortium consisting of complementary partners that will help us to retain our competitive edge over the long term. 

LINK

Hydrogen Embrittlement - LinkedIn Newsletter 

LINK

Hydrogen Embrittlement - LinkedIn Group

The aim of this LinkedIn Group with 3K+ members is to discuss matters related to hydrogen embrittlement mechanisms of metallic materials and the hydrogen environment embrittlement (HEE) process, including Hydrogen Enhanced Decohesion (HEDE), Hydrogen Enhanced Local Plasticity (HELP), Adsorption-Induced Dislocation Emission (AIDE), hydride-induced embrittlement, as well as, all other proposed contemporary micro-nano-atomic-mechanisms. Also, discussions and industrial case studies & failure analysis about hydrogen-assisted and induced cracking (HAC, HIC, HISC, SOHIC...), hydrogen-induced corrosion, hydrogen-induced blistering, and high-temperature hydrogen attack (HTHA), mechanisms, with practical experiences (control, detection, inspection, prediction, and prevention), are welcome. 

LINK

Hydrogen Embrittlement - Twitter Community 

LINK

The official ESIS YouTube channel

Subscribe to the ESIS YouTube channel (2.16K subscribers).

In this channel are published some of the events that ESIS organized in the last years. 

LINK

About ESIS Technical Committiees (TC) 

ESIS Technical Committees (TC) work on different aspects of Structural Integrity matters. They are the most important part of the ESIS organization. Their activities are supported by ESIS. The strength of each TC is indicated by the number and scientific quality of Committee members together with their output in terms of reports, recommendations, procedure documents, Special Technical Publications, and the regularity of their technical meetings. 

TC21 HYDROGEN EMBRITTLEMENT AND TRANSPORT