Tobias Mente scite author profile

Welded components of P91 9% Cr steel demand for careful welding fabrication with necessary post weld heat treatment (PWHT). Before the PWHT, a hydrogen removal heat treatment is necessary for avoidance of hydrogen assisted cracking (HAC). In this context, the microstructure and temperature-dependent hydrogen diffusion is important, and reliable diffusion coefficients of P91 weld metal are rare. For that reason, the diffusion behavior of P91 multi-layer weld metal was investigated for as-welded (AW) and PWHT condition by electrochemical permeation experiments at room temperature and carrier gas hot extraction (CGHE) from 100 to 400°C. Hydrogen diffusion coefficients were calculated, and the corresponding hydrogen concentration was measured. It was ascertained that both heat treatment conditions show significant differences. At room temperature the AW condition showed significant hydrogen trapping expressed by to seven times lower diffusion coefficients. A preferred diffusion direction was found in perpendicular direction expressed by high permeability. The CGHE experiments revealed lower diffusion coefficients for the AW condition up to 400°C. In this context, a hydrogen concentration of approximately 21 ml/100 g was still trapped at 100°C. For that reason, a certain HAC susceptibility of as-welded P91 weld metal cannot be excluded, and hydrogen removal should be done before PWHT.

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Quantification of hydrogen effective diffusion coefficients and effusion behavior in duplex stainless steel weld metals

Dabah

Kannengießer

Mente

et al. 2013

Weld World

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Hydrogen determination in welded specimens by carrier gas hot extraction—a review on the main parameters and their effects on hydrogen measurement

et al. 2018

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Mesoscale modeling of hydrogen-assisted cracking in duplex stainless steels

Mente

Boellinghaus

2013

Weld World

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Hydrogen Assisted Cracking of a Subsea-Flowline

Boellinghaus

Steppan

Mente

2016

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Waiting time before NDT of welded offshore steel grades under consideration of delayed hydrogen-assisted cracking

2021

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Offshore wind turbines (OWT) are a major goal of the energy strategy of Germany encompassing the increase of the installed wind power. OWT components are manufactured from welded steel plates with thicknesses up to 200 mm. The underlying standards and technical recommendations for construction of OWTs encompass specifications of so-called minimum waiting time (MWT) before non-destructive testing of the weld joints is allowed. Reason is the increased risk of time-delayed hydrogen-assisted cold cracking as hydrogen diffusion is very slow due to the very thick plates. The strict consideration of those long MWT up to 48 h during the construction of OWTs leads to significant financial burden (like disproportionately high costs for installer ships as well as storage problems (onshore)). In this study, weld joints made of S355 ML were examined in comparison with the offshore steel grade S460 G2+M. The aim was to optimize, i.e., reduce, the MWT before NDT considering varied heat input, hydrogen concentration and using self-restraint weld tests. This would significantly reduce the manufacturing time and costs of OWT construction. To quantify the necessary delay time until hydrogen-assisted cold cracks appear, acoustic emission analysis was applied directly after welding for at least 48 h.

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Tobias Mente

Heat treatment Effects on The Reduction of Hydrogen in Multi-Layer High-Strength Weld Joints

Modeling Of Hydrogen Distributionin A Duplex Stainless Steel

Hydrogen diffusion in creep-resistant 9% Cr P91 multi-layer weld metal

Quantification of hydrogen effective diffusion coefficients and effusion behavior in duplex stainless steel weld metals

Hydrogen determination in welded specimens by carrier gas hot extraction—a review on the main parameters and their effects on hydrogen measurement

Mesoscale modeling of hydrogen-assisted cracking in duplex stainless steels

Hydrogen Assisted Cracking of a Subsea-Flowline

Waiting time before NDT of welded offshore steel grades under consideration of delayed hydrogen-assisted cracking

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