TC21 Updates

Final Program TC21 “Hydrogen Embrittlement” Symposium, ICSI2023, 29 August – 1 September 2023, Funchal, Madeira, Portugal

Download the final program (https://lnkd.in/e5kXtMR5)

of the upcoming Thematic/Special Symposium with a round table and panel discussion:

TC21 "Hydrogen embrittlement of metals: Problems and solutions" (TC21 “Hydrogen Embrittlement” Symposium). 

Organized by:

• Prof. Milos Djukic, University of Belgrade, Faculty of Mechanical Engineering, Serbia

• Prof. Frank Cheng, University of Calgary, Schulich School of Engineering, Canada

• Motomichi Koyama, Associate Professor, Tohoku University, Japan

• Tom Depover, Assistant Professor, University of Ghent, Belgium

• Dr. Antonio ALVARO, SINTEF, Norwegian University of Science and Technology (NTNU), Norway, and

• Emilio Martínez Pañeda, Ph.D., Senior Lecturer (Associate Professor), Imperial College London, Faculty of Engineering, UK

TC21 “Hydrogen Embrittlement” Symposium is organized by the ESIS Technical Committee TC21 Hydrogen Embrittlement and Transport of the European Structural Integrity Society (ESIS) and Prof. Frank Cheng (see page 16 for more details about ESIS TC21), 

within the framework of the 5th International Conference on Structural Integrity (ICSI2023), 29 August – 1 September 2023. Funchal, Madeira, Portugal, https://www.icsi.pt/

The program consists of a total of 44 presentations by top senior and junior researchers in hydrogen embrittlement, including 9 invited talks (8 sessions) + short open table with discussion.

The special topic is "Oil and gas pipelines transporting hydrogen-gas mixture and 100% H: hydrogen embrittlement (HE) and HE-assisted fatigue".

Invited talks:

1. "Multiscale Modeling of Hydrogen Clustering and Bubbling in BCC Metals" by Prof. Jun Song

2. "Study of hydrogen atom distribution at metallurgical features and mechanical defects contained in pipeline steels by scanning Kelvin probe force microscopy and finite element modeling" by Prof. Frank Cheng

3. "Theoretical investigations and QM modelling of hydrogen-based materials" by Dejan Zagorac (NEW)

4. "Phase-field modelling of environmentally induced damage" by Sasa Kovacevic, Ph.D. (NEW)

5. "Hydrogen-accelerated/decelerated fatigue crack propagation in Ni-based

superalloy 718" by Osamu Takakuwa (NEW)

6. "Recent developments in understanding the mechanisms of hydrogen embrittlement and trapping behaviour in Al alloys" by Dr. Masoud Moshtaghi

7. "Increasing the resistance to hydrogen embrittlement of martensitic medium carbon steels" by Tom Depover, Assistant Professor

8. "Hydrogen embrittlement behavior of iron-based superalloy A286" by Prof. Akihiko Fukunaga

9. "Characteristics of local plasticity and boundary character in

hydrogen-assisted intergranular and intergranular-like fracture paths" by Motomichi Koyama, Associate Professor 

Our aim is to bring together top scientists and researchers in the field of hydrogen embrittlement 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.

The main topics:

- Hydrogen-materials interactions;

- Hydrogen-deformation interactions;

- Hydrogen embrittlement (HE) mechanisms;

- Hydrogen embrittlement and fatigue;

- Hydrogen mapping and novel critical experiments;

- Materials mechanical response at different scales, HE-resistant alloys;

- Multiscale, computational, and atomistic modeling of hydrogen embrittlement;

- Oil and gas pipelines transporting hydrogen-gas mixture: HE and HE-assisted fatigue;

- Hydrogen embrittlement and damage - industrial case studies (HE, HIC, HSC, HTHA,..).

The selected authors of papers presented at the Thematic Symposium TC21 “Hydrogen Embrittlement”, during ICSI2023, will be invited by the SI Guest Editors to submit the full papers for publication in the SI of Engineering Failure Analysis (EFA), (2022: CiteScore 6.3, Impact Factor 4), entitled "Understanding Environmentally Hydrogen Assisted Cracking of Metals: Key Towards a Sustainable Future": https://www.sciencedirect.com/journal/engineering-failure-analysis/about/call-for-papers#understanding-environmentally-hydrogen-assisted-cracking-of-metals-key-towards-a-sustainable-future 

TC21 “Hydrogen Embrittlement” Symposium is organized and supported by Technical Committee TC21 “Hydrogen embrittlement and Transport” (https://sites.google.com/structuralintegrity.eu/tc21) of the European Structural Integrity Society – ESIS (https://www.structuralintegrity.eu/), and Prof. Frank Cheng. 

ESIS TC21 “Hydrogen Embrittlement and Transport”, Chair:

- Prof. Milos B. Djukic

- Prof. Dr. Ir. Tom Depover

- Dr. Antonio ALVARO

- Dr. Emilio Martínez Pañeda, Ph.D., Senior Lecturer (Associate Professor)

- Dr. Eng. Motomichi Koyama, Associate Professor

ESIS TC21 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.

Links:

- ESIS TC21 LinkedIn (LI) page: https://www.linkedin.com/showcase/esis-technical-committees-tc21-hydrogen-embrittlement-and-transport/

- ESIS LI page: https://www.linkedin.com/company/european-structural-integrity-society/

- Hydrogen Embrittlement LI Group (4000+ followers): https://www.linkedin.com/groups/4991909/

- Hydrogen Embrittlement LI Newsletter (7000+ subscribers): https://www.linkedin.com/newsletters/6877459701664157696/

See you in Portugal. Drop me a message if you attend ICSI2023.

Kind regards,

Milos B. Djukic

Thematic Symposium with a round table and panel discussions TC21 “Hydrogen Embrittlement” - organizerThematic/Special Symposium with a round table and panel discussions on various related topics.

Invitation for the abstract submission, TC21 Special Symposium: ”Hydrogen embrittlement”, ICSI2023, 29 August – 1 September 2023 

TC21 invite all hydrogen embrittlement researchers to submit their abstract for a TC21 Thematic/Special Symposium with a round table and panel discussions: ”Hydrogen embrittlement of metals: Problems and solutions” (https://www.icsi.pt/thematic-symposia-2023/) during 5th International Conference on Structural Integrity (ICSI2023), 29 August – 1 September 2023. Funchal, Madeira, Portugal (https://www.icsi.pt/) 

The deadline for the abstract submission is March 31st, 2023

Please inform us about your submission/intention to submit the abstract with a tentative title of your presentation, together with the name, affiliation, and email address of the corresponding author and the names of co-authors so that we can properly organize the Symposium sessions. Send an email with the info mentioned above before March 25, 2023, to: mdjukic@mas.bg.ac.rs (Prof. Milos B. Djukic).

HE Thematic/Special Symposium flyer is available here: https://icsi.pt/files/2023/Symposium_N_ICSI_2023.pdf

More info about the Thematic/Special Symposium with a round table and panel discussions: ”Hydrogen embrittlement of metals: Problems and solutions”:

The HE Thematic/Special Symposium is organized by Technical Committee TC21 “Hydrogen embrittlement and Transport” of the European Structural Integrity Society – ESIS (https://www.structuralintegrity.eu/), together with Prof. Frank Cheng, Canada Research Chair in Pipeline Engineering:

• Prof. Milos B. Djukic (mdjukic@mas.bg.ac.rs), University of Belgrade, Faculty of Mechanical Engineering, Serbia

• Prof. Frank Cheng, University of Calgary, Schulich School of Engineering, Canada

• Motomichi Koyama, Assoc. Prof., Tohoku University, Japan

• Tom Depover, Asst. Prof., University of Ghent, Belgium

• Dr. Antonio Alvaro, SINTEF, Norwegian University of Science and Technology, Norway

• Emilio Martinez-Paneda, Senior Lecturer (Assoc. Pro  f.), Imperial College London, Faculty of Engineering, UK

Our aim is to bring together top scientists and researchers in the field of hydrogen embrittlement 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.

The main objective 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 idea is to attract top researchers in hydrogen embrittlement to participate with papers and to join the Thematic/Special Symposium with a round table and panel discussions on various related topics.

The main topics:

- Hydrogen-materials interactions;

- Hydrogen-deformation interactions;

- Hydrogen embrittlement (HE) mechanisms;

- Hydrogen embrittlement and fatigue;

- Hydrogen mapping and novel critical experiments;

- Materials mechanical response at different scales, HE-resistant alloys;

- Multiscale, computational, and atomistic modeling of hydrogen embrittlement;

- Hydrogen embrittlement prediction and prevention

- Oil and gas pipelines transporting hydrogen-gas mixture: HE and HE-assisted fatigue;

- Hydrogen embrittlement and damage - industrial case studies (HE, HIC, HSC, HTHA,...).

Important notes!

· The abstract should be prepared according to the template, which can be downloaded from www.icsi.pt/files/2023/abstract_icsi2023.docx and submitted by email to icsi@icsi.pt

before March 31st, 2023

· When submitting your abstract to ECF23 please mention the name of the Thematic Symposium - “Hydrogen embrittlement of metals: Problems and solutions”.

· Accepted conference papers within this Thematic Symposium will be published in the Elsevier Procedia Structural Integrity journal (https://www.sciencedirect.com/journal/procedia-structural-integrity) indexed in the major databases, including Scopus and Web of Science.

We have the following confirmed invited speakers - talks for the HE Thematic/Special Symposium 2023:

1. Prof. Frank Cheng, University of Calgary, Schulich School of Engineering, Canada, the title of the ICSI2023 plenary talk: ”Fundamental insights into the hydrogen embrittlement of pipelines in high-pressure gaseous environments”. (https://lnkd.in/dGwAwzpX)

2. Prof. Jun Song, McGill University, Canada, ”Multiscale Modeling of Hydrogen Clustering and Bubbling in BCC Metals".

3. Prof. Dr. Ir. Tom Depover, University of Ghent, Faculty of Engineering and Architecture, Belgium, ”Increasing the resistance to hydrogen embrittlement of martensitic medium carbon steels”.

4. Dr. Cem Örnek, Asst. Prof, Leibniz-Institut für Werkstofforientierte Technologien, Germany, Istanbul Technical University, Turkey, ”New Insights and Understanding of Hydrogen Embrittlement of Duplex Stainless Steel: Combined DFT Modelling and Experimental Study”.

5. Prof. V.S. Raja, Institute Chair Professor, Dept. of Metallurgical Engineering and Materials Science, Indian Institute of Technology (ITT) Bombay, India, ”Pathways for Developing Environmentally Assisted Cracking Resistant High Strength Al-alloys”.

6. Dr. Eng. Motomichi Koyama, Associate Professor, Institute for Materials Research, Tohoku University, Japan, the title of the invited online talk, ”Characteristics of local plasticity and boundary character in hydrogen-assisted intergranular and intergranular-like fracture paths”.

7. Dr. Masoud Moshtaghi, Senior Scientist, Chair of General and Analytical Chemistry Montanuniversität Leoben, Austria, "Recent developments in understanding the mechanisms of hydrogen embrittlement and trapping behaviour in Al alloys".

8. Prof. Frank Cheng, University of Calgary, Schulich School of Engineering, Canada, "Study of hydrogen atom distribution at metallurgical features and mechanical defects contained in pipeline steels by scanning Kelvin probe force microscopy and finite element modeling".

9. Prof. Emeritus Dan Eliezer, Ben Gurion University of the Negev, Department of Materials Engineering, Israel, the title of the invited talk: ”Hydrogen embrittlement in structural materials: theory and applications”.

10. Prof. Akihiko Fukunaga, Department of Applied Chemistry, Waseda University, Japan, ”Hydrogen embrittlement behavior of iron-based superalloy A286”. 

11. Prof. Hong Luo, Corrosion and Protection Center, University of Science and Technology Beijing, China, the title of the invited talk: ”Research on environmental degradation behavior and mechanism of high entropy alloys”. 

The Hydrogen embrittlement (HE) Thematic/Special Symposium is a part of the ICSI2023 conference but actually, it will be a dedicated symposium with a separate flyer - program and dedicated promo poster during the conference. More like a conference within a conference.

For more details about the very successful previously organized HE Thematic/Special Symposium, please check these links:

• HE Thematic/Special Symposium – ECF22 (conference program, 46 presentations, and 10 invited speakers, including highly acclaimed participant – HE researchers): http://www.ecf22.rs/docs/HE%20Special%20%20Symposium%20%20ECF22%20Programme%20FINAL.pdf

• HE Thematic/Special Symposium – ECF23 (conference program, 34 presentations, and 10 invited speakers, including highly acclaimed participant – HE researchers): http://www.ecf23.eu/Programme_TC10B_FINAL.pdf 

I am looking forward to seeing you in Portugal.

If you have any questions please contact me at mdjukic@mas.bg.ac.rs

Kind regards,

Milos B. Djukic,

ESIS TC21 Chair

Free webinar on hydrogen embrittlement and materials is available on YouTube 

Free webinar record on YouTube : "Hydrogen Embrittlement and Material Selection" - Prof. Milos B. Djukic:

https://www.youtube.com/watch?v=EpDTc1s5lVY

A selection of suitable materials is critical for the safety of any hydrogen application. Most engineers know that hydrogen embrittlement and other hydrogen-specific damaging mechanisms of various metallic materials represent serious threats. 

Topics:

✓ What is hydrogen embrittlement?

✓ Hydrogen embrittlement mechanisms in steel and their synergy.

✓ Hydrogen embrittlement effects on mechanical properties.

✓ The problems of hydrogen embrittlement in pipelines transporting hydrogen-gas mixture.

✓ How can hydrogen embrittlement be predicted and avoided?

✓ Summary about materials, hydrogen applications, hydrogen embrittlement, and safety.

Plus comprehensive Q&A session.

ESIS European Structural Integrity Society blog: The Physics of Hydrogen Embrittlement

The since our comprehensive critical review paper about hydrogen embrittlement published in 2019 in Engineering Fracture Mechanics (EFM) journal is presented and promoted on the ESIS European Structural Integrity Society blog hosted by IMechanica.

Link - Discussion of fracture paper #34 - The Physics of Hydrogen Embrittlement: 

https://imechanica.org/node/26076

Discussion of fracture paper #34 - The Physics of Hydrogen Embrittlement: 

"The synergistic action and interplay of hydrogen embrittlement mechanisms in steels and iron: Localized plasticity and decohesion", by Milos B. Djukic, Gordana M. Bakic, Vera Sijacki Zeravcic, Aleksandar Sedmak, and Bratislav Rajicic, Engineering Fracture Mechanics 216 (2019) 106528

Article - Elsevier: https://www.sciencedirect.com/science/article/pii/S0013794418314152

Article - ResearchGate (free version - download): https://www.researchgate.net/publication/334106924_The_synergistic_action_and_interplay_of_hydrogen_embrittlement_mechanisms_in_steels_and_iron_Localized_plasticity_and_decohesion

Hydrogen embrittlement causes problems that probably will become apparent to an increasing extent as hydrogen is taken into general use for energy storage and as a fuel for heating and electricity production.

All comments, opinions, thoughts regarding the paper, or anything related are encouraged. Please feel free to join and I will do my best to respond.

The ESIS blog promotes and intensifies relevant scientific discussions on recent publications in Engineering Fracture Mechanics. The blog is hosted by IMechanica.