Effect of Heat Input on Microstructural Evolution and Impact Toughness in Dissimilar Weld Metals Between Medium Mn and V-Microalloyed Steel (2025)
This article investigates how heat input during welding affects microstructural changes and impact toughness in dissimilar weld metals made from medium manganese and vanadium-microalloyed steel. The research highlights the complexities of welding these materials and their performance under different thermal conditions.
Role of V and N Addition on the Microstructure and Mechanical Properties of Q690 MPa Medium and Heavy Plates Produced by Thermomechanically Controlled Processing (2025)
The study explores the influence of vanadium (V) and nitrogen (N) additions on the microstructure and mechanical properties of high-strength steel plates (Q690 MPa) produced using thermomechanical processing. This work aims to optimize the strength and toughness of these steel plates for structural applications.
Effect of Deformed Prior Austenite Characteristics on Reverse Phase Transformation and Deformation Behavior of High-Strength Medium-Mn Steel (2024)
This paper examines the role of prior austenite characteristics in influencing reverse phase transformation and deformation behavior in high-strength medium manganese steel. The findings contribute to better understanding the transformation-induced plasticity in medium manganese steel during deformation.
Effect of Welding Thermal Cycling on Microstructures and Cryogenic Impact Toughness of Medium-Mn Low-Temperature Steel (2024)
Focusing on the cryogenic impact toughness of medium manganese low-temperature steel, this article looks at how welding thermal cycling influences the microstructure and toughness of these materials under cryogenic conditions, which is crucial for applications in cold environments.
Effect of Cr on the Corrosion Behavior of Low Carbon Vanadium Microalloyed Weathering Steel in a Simulated Industrial Atmosphere (2024)
This research investigates the corrosion behavior of low-carbon vanadium microalloyed weathering steel, highlighting the effects of chromium (Cr) on its performance in industrial atmospheres, which is vital for improving the durability of steel in corrosive environments.
Hydrogen Diffusivity in Dislocation, Grain Boundary, and Lattice of α-Fe Based on Electrochemical Hydrogen Permeation Experiments and Maxwell-Garnett Calculations (2024)
This article explores hydrogen diffusivity in α-iron (α-Fe) with a focus on dislocations, grain boundaries, and the lattice, providing insight into the hydrogen-induced degradation of materials, especially in high-strength steels.
A Study on Corrosion Behavior of Advanced Weathering Steel Relying on Ni–Mo Synergy Under Marine Atmosphere (2024)
Investigating the corrosion resistance of advanced weathering steel in a marine atmosphere, this research focuses on the synergistic effects of nickel (Ni) and molybdenum (Mo) in improving the steel’s durability against environmental degradation.
Unlocking the Mechanisms Behind Austenite Formation of Cold-Rolled Ferrite–Martensite Dual-Phase Steels: The Role of Ferrite Recrystallization (2024)
The paper studies the formation mechanisms of austenite in cold-rolled ferrite-martensite dual-phase steels, emphasizing the role of ferrite recrystallization in determining the final steel microstructure and properties.
Low-Temperature Impact Fracture Behavior of Medium Manganese Steel with Bcc-Fcc Duplex Microstructures (2024)
This article examines the low-temperature impact fracture behavior of medium manganese steel with duplex microstructures comprising body-centered cubic (BCC) and face-centered cubic (FCC) phases. The study focuses on how these structures affect toughness at low temperatures.