Jan Mayén scite author profile

Microalloyed steels have evolved in terms of their chemical composition, processing, and metallurgical characteristics since the beginning of the 20th century in the function of fabrication costs and mechanical properties required to obtain high-performance materials needed to accommodate for the growing demands of gas and hydrocarbons transport. As a result of this, microalloyed steels present a good combination of high strength and ductility obtained through the addition of microalloying elements, thermomechanical processing, and controlled cooling, processes capable of producing complex microstructures that improve the mechanical properties of steels. These controlled microstructures can be severely affected and result in catastrophic failures, due to the atomic hydrogen diffusion that occurs during the corrosion process of pipeline steel. Recently, a martensite-bainite microstructure with acicular ferrite has been chosen as a viable candidate to be used in environments with the presence of hydrogen. The aim of this review is to summarize the main changes of chemical composition, processing techniques, and the evolution of the mechanical properties throughout recent history on the use of microalloying in high strength low alloy steels, as well as the effects of hydrogen in newly created pipelines, examining the causes behind the mechanisms of hydrogen embrittlement in these steels.

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A novel high-performance passive non-traditional inerter-based dynamic vibration absorber

Barredo

Mendoza-Larios

Colín

et al. 2020

Journal of Sound and Vibration

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Improved Mechanical Properties, Wear and Corrosion Resistance of 316L Steel by Homogeneous Chromium Nitride Layer Synthesis Using Plasma Nitriding

Díaz-Guillén

Naeem

Acevedo-Dávila

et al. 2020

J. of Materi Eng and Perform

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Improvement of ultimate tensile strength by artificial ageing and retrogression treatment of aluminium alloy 6061

Abúndez

Pereyra

Campillo

et al. 2016

Materials Science and Engineering: A

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Jan Mayén

Closed-form solutions for the optimal design of inerter-based dynamic vibration absorbers

Microalloyed Steels through History until 2018: Review of Chemical Composition, Processing and Hydrogen Service

A novel high-performance passive non-traditional inerter-based dynamic vibration absorber

Improved Mechanical Properties, Wear and Corrosion Resistance of 316L Steel by Homogeneous Chromium Nitride Layer Synthesis Using Plasma Nitriding

Improvement of ultimate tensile strength by artificial ageing and retrogression treatment of aluminium alloy 6061

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