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Critical assessment 42: Acicular ferrite formation and its influence on weld metal and heat-affected zone properties of steels

Lawrence Cho, Anastasiya Tselikova, Kelsey Holtgrewe, Emmanuel De Moor, Rolf Schmidt, Kip O. Findley

2022Materials Science and Technology32 citationsDOIOpen Access PDF

Abstract

Toughness and fatigue resistance of welds and associated heat-affected zones (HAZs) in high-strength steels are important design parameters in structural applications. Acicular ferrite microstructures, which can be achieved through control of weld process and nucleant (inclusions or precipitates) characteristics, are often regarded as key to enhancing weld metal and HAZ properties of welded steels. This paper addresses the transformation characteristics of acicular ferrite related to alloying and weld processing as well as the specific role of acicular ferrite in weld performance, along with future research needs to identify weld processes suitable to specific alloying strategies.

Topics & Concepts

Acicular ferriteMaterials scienceWeldingMetallurgyFerrite (magnet)ToughnessHeat-affected zoneMicrostructureAcicularComposite materialBainiteMartensiteMicrostructure and Mechanical Properties of SteelsFatigue and fracture mechanicsWelding Techniques and Residual Stresses