Quantitative measurement of hydrogen trapping in the interphase-precipitate-containing ferritic steels by thermal desorption spectroscopy (TDS). The steels with TiC (green) and (Ti,Mo)C (blue) after ...

Hydrogen is the lightest and one of the most abundant elements. Hydrogen is emerging as a globally important energy source and energy carrier, but storage and transportation remain challenging.

A recent study in the journal Metals comprehensively investigated the effects of hydrogen and hydrogen-blended natural gas on additively manufactured (AM) 316L stainless steel in oil and gas ...

International researcher team develops scalable aluminium alloys for the hydrogen economy. Aluminium alloys are well-known for their low weight and corrosion resistance, making them ideal candidates ...

Researchers have identified how common testing errors lead to unreliable data, providing a new blueprint for building the ultra-safe infrastructure needed for a hydrogen-powered world.

A recent study in Advanced Materials Interfaces examined γ’-Fe₄N nitride layers, formed on iron, as a potential barrier against hydrogen permeation. Using a simple gas nitriding process at 570 °C, ...

Embrittlement is one of the biggest obstacles facing the transition to a global hydrogen economy. A new process uncovered by researchers is helping shed light on how to better prevent it. Why hydrogen ...

Aluminium alloys are well-known for their low weight and corrosion resistance, making them ideal candidates for applications in a low-carbon economy - from lightweight automobiles to tanks for storing ...

Why hydrogen causes steels to become brittle and crack is the great conundrum of engineers and researchers looking to develop large-scale transport and storage solutions for the hydrogen age – an era ...