Diffusion and Critical Hydrogen Content of Carbon Steels with Different Strengths and Microstructures

Dino Zwittnig; Matthias Eichinger; Martin Mülleder; Claudius Schindler; Rupert Egger; Gregor Mori

Diffusion and Critical Hydrogen Content of Carbon Steels with Different Strengths and Microstructures

Dino Zwittnig
, Matthias Eichinger
, Martin Mülleder
, Claudius Schindler
, Rupert Egger
, Gregor Mori

Chair of General and Analytical Chemistry (120)

voestalpine Grobblech GmbH

Research output: Contribution to journal › Article › Research › peer-review

Abstract

Four thermomechanically rolled carbon steels with different strength levels and microstructures, namely S355M, X65M, S960M, and S1100M, were selected, and their critical hydrogen contents Hcrit were determined. Hcrit is the hydrogen content where brittle fracture of the steel can occur. The Hcrit values for the four carbon steels are 2.03 (S355M), 0.91 (X65M), 0.32 (S960M), and 0.53 ppm (S1100M). Bainitic carbon steel S1100M outperforms lower-strength tempered martensitic steel S960M in terms of resistance to hydrogen embrittlement. All other steels follow the trend that a higher strength of steel results in a lower resistance to hydrogen embrittlement. The root cause for the beneficial behavior of bainitic steels is discussed.

Original language	English
Article number	15
Number of pages	22
Journal	Materials
Volume	2025
Issue number	Volume 19, Issue 1
Publication status	Published - 19 Dec 2025

Access to Document

https://doi.org/10.3390/ma19010015

Cite this

@article{1ce84abf7faf462585208514581951d2,

title = "Diffusion and Critical Hydrogen Content of Carbon Steels with Different Strengths and Microstructures",

abstract = "Four thermomechanically rolled carbon steels with different strength levels and microstructures, namely S355M, X65M, S960M, and S1100M, were selected, and their critical hydrogen contents Hcrit were determined. Hcrit is the hydrogen content where brittle fracture of the steel can occur. The Hcrit values for the four carbon steels are 2.03 (S355M), 0.91 (X65M), 0.32 (S960M), and 0.53 ppm (S1100M). Bainitic carbon steel S1100M outperforms lower-strength tempered martensitic steel S960M in terms of resistance to hydrogen embrittlement. All other steels follow the trend that a higher strength of steel results in a lower resistance to hydrogen embrittlement. The root cause for the beneficial behavior of bainitic steels is discussed.",

author = "Dino Zwittnig and Matthias Eichinger and Martin M{\"u}lleder and Claudius Schindler and Rupert Egger and Gregor Mori",

year = "2025",

month = dec,

day = "19",

language = "English",

volume = "2025",

journal = "Materials",

issn = "1996-1944",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "Volume 19, Issue 1",

}

TY - JOUR

T1 - Diffusion and Critical Hydrogen Content of Carbon Steels with Different Strengths and Microstructures

AU - Zwittnig, Dino

AU - Eichinger, Matthias

AU - Mülleder, Martin

AU - Schindler, Claudius

AU - Egger, Rupert

AU - Mori, Gregor

PY - 2025/12/19

Y1 - 2025/12/19

N2 - Four thermomechanically rolled carbon steels with different strength levels and microstructures, namely S355M, X65M, S960M, and S1100M, were selected, and their critical hydrogen contents Hcrit were determined. Hcrit is the hydrogen content where brittle fracture of the steel can occur. The Hcrit values for the four carbon steels are 2.03 (S355M), 0.91 (X65M), 0.32 (S960M), and 0.53 ppm (S1100M). Bainitic carbon steel S1100M outperforms lower-strength tempered martensitic steel S960M in terms of resistance to hydrogen embrittlement. All other steels follow the trend that a higher strength of steel results in a lower resistance to hydrogen embrittlement. The root cause for the beneficial behavior of bainitic steels is discussed.

AB - Four thermomechanically rolled carbon steels with different strength levels and microstructures, namely S355M, X65M, S960M, and S1100M, were selected, and their critical hydrogen contents Hcrit were determined. Hcrit is the hydrogen content where brittle fracture of the steel can occur. The Hcrit values for the four carbon steels are 2.03 (S355M), 0.91 (X65M), 0.32 (S960M), and 0.53 ppm (S1100M). Bainitic carbon steel S1100M outperforms lower-strength tempered martensitic steel S960M in terms of resistance to hydrogen embrittlement. All other steels follow the trend that a higher strength of steel results in a lower resistance to hydrogen embrittlement. The root cause for the beneficial behavior of bainitic steels is discussed.

M3 - Article

SN - 1996-1944

VL - 2025

JO - Materials

JF - Materials

IS - Volume 19, Issue 1

M1 - 15

ER -