Yankun Zhang scite author profile

The influences of microstructure and elemental distribution on pitting corrosion resistance and passive film in different regions of a super duplex stainless steel welded joint were investigated. The banded microstructure disappeared after welding and transformed to the coarse equiaxed ferrite grains in the heat-affected zone. Three types of austenitic microstructure formed in the weld center, only two types occurred in the weld cap and weld root. It is found that the elements Ni and N were enriched in austenite, while Cr and Mo were concentrated in the ferrite. The Cr 2 N was found precipitating in some specific regions with a lower austenite content, which led to the relatively poorer resistance to pitting corrosion in the heat-affected zone, weld root, and weld cap. The ferrite observed in each studied region of the joint was prone to experiencing selective corrosion due to its lower pitting resistance equivalent number. The content of Cr in the region around the Cr 2 N disappeared, so that Cr-depletion was formed as the original location of pitting. The electrochemical impedance spectroscopy results also showed that no difference exists in the passive film structure in all of the regions of the joint, and regular banded microstructure was helpful to the passive film.

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Structure and mechanical properties of a FeCoCrNi high-entropy alloy fabricated via selective laser melting

Lin

Han

Zhang

et al. 2020

Intermetallics

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Additive manufacturing of high-performance 15-5PH stainless steel matrix composites

Chen

Zhang

Zhao

et al. 2021

Virtual and Physical Prototyping

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Yankun Zhang

High-temperature mechanical properties of FeCoCrNi high-entropy alloys fabricated via selective laser melting

Selective laser melting of low-content graphene nanoplatelets reinforced 316L austenitic stainless steel matrix: Strength enhancement without affecting ductility

Microstructure and Corrosion Studies on Different Zones of Super Duplex Stainless Steel UNS S32750 Weldment

Structure and mechanical properties of a FeCoCrNi high-entropy alloy fabricated via selective laser melting

Additive manufacturing of high-performance 15-5PH stainless steel matrix composites

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