To support our increasing energy demand, steel pipelines are deployed in transporting oil
and natural gas resources for long distances. However, numerous steel structures …

Hydrogen embrittlement (HE) is one of the most dangerous yet most elusive embrittlement
problems in metallic materials. Advanced high-strength steels (AHSS) are particularly prone …

One key strategy to achieve global climate targets is implementing climate-friendly hydrogen
as a versatile energy carrier, commodity, and feedstock in the most energy-intensive sectors …

The essential facts about the nature of the hydrogen embrittlement of steels have now been
known for 140 years. It is diffusible hydrogen that is harmful to the toughness of iron. It …

Hydrogen embrittlement of lath martenistic steels is characterized by intergranular and
“quasi-cleavage” transgranular fracture. Recent transmission electron microscopy (TEM) …

We present a gradient-based theoretical framework for predicting hydrogen assisted fracture
in elastic-plastic solids. The novelty of the model lies in the combination of:(i) stress-assisted …

Intergranular cracking associated with hydrogen embrittlement represents a particularly
severe degradation mechanism in metallic structures which can lead to sudden and …

Hydrogen will be a crucial pillar in the clean-energy foundation, and therefore, the
development of safe and cost-effective storage and transportation methods is essential to its …

We investigate the influence of microstructural traps on hydrogen diffusion and
embrittlement in the presence of cyclic loads. A mechanistic, multi-trap model for hydrogen …

We present a new mechanistic, phase field-based formulation for predicting hydrogen
embrittlement. The multi-physics model developed incorporates, for the first time, a Taylor …