Dominik Zügner scite author profile

High-strength lightweight constructions are a crucial part of transportation systems and steel constructions optimised for low energy consumption. In this investigation, the aim is to understand the influence of different alloying elements on the mechanical properties of all-weld metal samples of high-strength filler metals. Metal-cored wires with adjusted chemistry were produced and the measured yield strength is compared with calculated values which were obtained by thermodynamic and kinetic simulations. By increasing the content of the matrix alloying elements, no increase in strength could be achieved, but compared to that, higher strength was obtained by the addition of Ti, Nb and Al in combination. Furthermore, the influence of different Ti, Al and N contents is presented and discussed.

show abstract

Influence of Microalloying Elements and Deformation Parameters on the Recrystallization and Precipitation Behavior of Two Low‐Alloyed Steels

Monschein

Kapp

Zügner

et al. 2021

steel research int.

View full text Add to dashboard Cite

Modern high-strength low-alloy (HSLA) steels have to fulfill a combination of high strength and toughness. In general, these properties are contrary, due to the fact that a high strength normally decreases the toughness of the material. Nevertheless, a grain refinement increases both, the toughness and the strength of steels. For HSLA steels, thermomechanical rolling is the processing of choice to obtain a finegrained microstructure for industrially relevant applications. [1,2] Adding microalloying elements like niobium, titanium, or vanadium increases the temperature nonrecrystallization (T NR ), which is the temperature below which no complete static recrystallization between two rolling passes takes place. Higher rolling temperatures allow lower rolling forces but have the disadvantage of resulting in grain growth. Titanium as a microalloying element retards the grain coarsening because it leads to the formation of TiN precipitates. These TiN precipitates are stable at temperatures, where Nb is in solution and which often is the starting temperature of the rolling process. [3] The equilibrium temperature for Nb(C,N) in austenite was estimated by Irvine et al. [4,5] and is given in Equation (1). log ðm%NbÞ m%C þ 12 14Nb delays the recrystallization of austenite in two ways. On the one hand, by the solute-drag effect and on the other hand, by precipitates. The solute-drag effect retards the recrystallization when Nb is dissolved in the austenite but is less effective than Nb-enriched precipitates, e.g., carbides, nitrides, and carbonitrides

show abstract

Development of high-strength welding consumables using calculations and microstructural characterisation

Holly

Haslberger

Zügner³

et al. 2018

Weld World

View full text Add to dashboard Cite

Microstructural, Chemical, and Crystallographic Investigations of Dynamic Strain-Induced Ferrite in a Microalloyed QT Steel

Monschein

Ragger

Fasching

et al. 2022

Metals

View full text Add to dashboard Cite

Dynamic strain-induced transformation (DSIT) enables the formation of fine-grained ferritic microstructures, which are well suited for cold forming processes in the as-rolled condition. In this work, the formation mechanism, chemical composition, and crystallographic orientation of DSIT ferrite were investigated in a micro-alloyed steel and compared to pre-eutectoid ferrite. High-resolution techniques, such as scanning transmission electron microscopy and atom probe tomography (APT), were used for the investigations. To generate DSIT ferrite and pre-eutectoid ferrite, different experimental routes were applied using a compression deformation dilatometer. The results show a large number of NbC precipitates within DSIT ferrite, and show that the formation of DSIT ferrite is accompanied with C diffusion and the formation of retained austenite. APT measurements revealed that the C- and Mn concentration in DSIT ferrite is higher compared to pre-eutectoid ferrite. The crystallographic orientation of DSIT ferrite was examined using electron backscatter diffraction. The crystallographic orientation of DSIT ferrite after the deformation route revealed that the <111> plane normals are parallel to the compression direction with the <110> directions pointing towards the radial direction of the compressed sample. The results suggest that the formation of DSIT ferrite is a displacive mechanism, accompanied by C diffusion.

show abstract

Influence of the Ti Content on the Grain Stability and the Recrystallization Behavior of Nb‐Alloyed High‐Strength Low‐Alloyed Steels

Monschein

Ragger

Zügner

et al. 2022

steel research int.

View full text Add to dashboard Cite

To achieve higher strength and good hardenability and at the same time use the positive effects of thermomechanical controlled processing, the concept of Nb and Ti microalloyed steels is increasingly used for high‐strength low‐alloy (HSLA) steels with higher C contents. Herein, how the addition of Ti affects the grain growth and static recrystallization behavior of a Nb microalloyed HSLA steel with a C content of 0.23 wt% is investigated. For this reason, alloys with varying Ti and constant Nb content are produced and investigated by means of annealing and double‐hit deformation experiments. Atom probe tomography measurements reveal that the Nb concentration in the matrix decreases with increasing Ti content. Therefore, the static recrystallization behavior is steadily inhibited with decreasing Ti content, as more dissolved Nb is available for the formation of strain‐induced NbC precipitates. The annealing experiments show that the combined addition of Ti and Nb is most effective against grain coarsening, regardless of whether the Ti content is 90 or 180 ppm. To use the positive properties of Ti against grain coarsening and Nb to inhibit recrystallization, a middle content must be chosen when alloying Ti to HSLA steels with higher C content.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Dominik Zügner

Influence of alloying elements on the mechanical properties of high-strength weld metal

Influence of Microalloying Elements and Deformation Parameters on the Recrystallization and Precipitation Behavior of Two Low‐Alloyed Steels

Development of high-strength welding consumables using calculations and microstructural characterisation

Microstructural, Chemical, and Crystallographic Investigations of Dynamic Strain-Induced Ferrite in a Microalloyed QT Steel

Influence of the Ti Content on the Grain Stability and the Recrystallization Behavior of Nb‐Alloyed High‐Strength Low‐Alloyed Steels

Contact Info

Product

Resources

About