Kuaishe Wang
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View article: Constitutive analysis and processing maps revealing the hot deformation mechanisms and workability of N18 zirconium alloy
Constitutive analysis and processing maps revealing the hot deformation mechanisms and workability of N18 zirconium alloy Open
The hot compression deformation behavior of the N18 zirconium alloy was systematically investigated in the temperature range of 600–800 °C and at strain rates of 0.01–5 s−1. Experimental results showed that the flow stress decreases with i…
View article: Solute-induced precipitation nanosized Ti-rich phase greatly enhances the plasticity of Mo-Ti-Zr alloys
Solute-induced precipitation nanosized Ti-rich phase greatly enhances the plasticity of Mo-Ti-Zr alloys Open
View article: Emerging design paradigms and microstructural innovations in refractory high-entropy alloys: a critical review
Emerging design paradigms and microstructural innovations in refractory high-entropy alloys: a critical review Open
Refractory high-entropy alloys (RHEAs) are being developed to meet mechanical, thermal and chemical requirements that exceed what current super-alloys can withstand. This Review explains how composition design, processing routes and the re…
View article: Effect of secondary α-phase precipitation on high-strain-rate deformation and shear band evolution in metastable β-titanium alloy
Effect of secondary α-phase precipitation on high-strain-rate deformation and shear band evolution in metastable β-titanium alloy Open
This work characterizes the dynamic response and failure evolution in a metastable β-Ti alloy under high-strain-rate deformation. Two microstructural states were prepared: annealing (ANN) and solution treatment and aging (STA). The effects…
View article: The strengthening mechanisms and incipient plasticity of additively manufactured biomedical refractory high entropy alloys
The strengthening mechanisms and incipient plasticity of additively manufactured biomedical refractory high entropy alloys Open
Owing to the cellular structure that limits dislocation motion upon stress loading, additively manufactured (AM) refractory high-entropy alloys (HEAs) exhibit an excellent strength-plasticity synergy. This work integrates micro/nano-mechan…
View article: ZM51 magnesium alloy joint with high strength and thermal conductivity fabricated via friction stir welding and aging
ZM51 magnesium alloy joint with high strength and thermal conductivity fabricated via friction stir welding and aging Open
View article: Multiscale analysis of high impact toughness in a novel low-cost titanium alloy
Multiscale analysis of high impact toughness in a novel low-cost titanium alloy Open
This study systematically investigates the deformation behavior of novel low-cost Ti–6Al–4V-0.4Fe-0.6Mo alloy with varying microstructures under dynamic impact loading. The microstructures with equiaxed and bimodal were fabricated by contr…
View article: Enhanced mechanical properties and thermal stability of boron doped molybdenum alloy
Enhanced mechanical properties and thermal stability of boron doped molybdenum alloy Open
View article: 3D Printing parameter optimisation combined with heat treatment for achieving high density and enhanced performance in refractory high-entropy alloys
3D Printing parameter optimisation combined with heat treatment for achieving high density and enhanced performance in refractory high-entropy alloys Open
In this study, a Ti1.5Nb1Ta0.5Zr1Mo0.5 (TNTZM) high-entropy alloy was fabricated using laser powder bed fusion (LPBF). By integrating 63 sets of parameter trials with machine learning (ML) models, an optimised process window was identified…
View article: Experimental Research on the Durability of Foam Concrete Under the Action of Compound Salt
Experimental Research on the Durability of Foam Concrete Under the Action of Compound Salt Open
View article: The effect of Fe content on the microstructure and properties of Cu–3Ti alloy
The effect of Fe content on the microstructure and properties of Cu–3Ti alloy Open
This study investigates the effect of Fe content ranging from 0 to 0.6 wt% on the microstructure and properties of Cu–3Ti alloys. In the forged state, the alloy exhibits an equiaxed grain structure. When the Fe content is 0.1 wt%, the grai…
View article: Coupled Temperature–Flow Field and Microstructure Numerical Simulation of the Solidification Process for Cu-3Ti-0.2Fe Alloy
Coupled Temperature–Flow Field and Microstructure Numerical Simulation of the Solidification Process for Cu-3Ti-0.2Fe Alloy Open
This work investigates the time-dependent changes in temperature, flow, and solidification microstructure under various cooling conditions. The mechanism of the effects of different pouring temperatures on the morphology and evolution of t…
View article: Evolution of LPSO Phase in Hot Deformation of as‐Forged Mg‐9Gd‐3Y‐2Zn‐0.3Zr Alloy and its Effect on Microstructure and Recrystallization Mechanism
Evolution of LPSO Phase in Hot Deformation of as‐Forged Mg‐9Gd‐3Y‐2Zn‐0.3Zr Alloy and its Effect on Microstructure and Recrystallization Mechanism Open
In this article, the hot deformation behavior of as‐forged Mg‐9Gd‐3Y‐2Zn‐0.3Zr alloy is investigated by using Gleeble 3500 thermomechanical simulation under 350–500 °C, strain rates of 0.01–10 s −1 , and 60% deformation. The evolution of l…
View article: High strain rate superplasticity in ultrafine-grained Ti-4.5Al–3V–2Mo–2Fe alloy
High strain rate superplasticity in ultrafine-grained Ti-4.5Al–3V–2Mo–2Fe alloy Open
High strain rate superplasticity (≥1 × 10−2 s−1) has been widely reported in low-melting-point materials such as aluminum and magnesium alloys, but remains underdeveloped in high-melting-point materials, particularly titanium alloys. This …
View article: Enhancing Workability Through Adjusting Element Content: A Study on the Hot Deformation Behavior of a Modified Titanium Alloy
Enhancing Workability Through Adjusting Element Content: A Study on the Hot Deformation Behavior of a Modified Titanium Alloy Open
A modified near‐α titanium alloy of Ti‐5.2Al‐3.7Sn‐3.6Zr‐0.5Mo‐0.5Si‐0.02C is subjected to hot compression experiment using Gleeble‐3800 at deformation temperatures ( T ) from 940 °C to 1060 °C and strain rates ( ε ) from 0.01 to 1 s −1 . …
View article: Investigation on the Thermal Decomposition Behavior of Molybdenum Trioxide Precursor
Investigation on the Thermal Decomposition Behavior of Molybdenum Trioxide Precursor Open
The ultrafine MoO3 powders were prepared by the combination of centrifugal spray drying and calcination in this work. The thermal decomposition behavior of the spherical precursor was studied. The phase constituents, morphologies, particle…
View article: Deformation Coordination and Microstructure Evolution of 1060al/6061al-Sic/1060al Composites During Isothermal Compression
Deformation Coordination and Microstructure Evolution of 1060al/6061al-Sic/1060al Composites During Isothermal Compression Open
View article: Effects of Layer Thickness Ratio on Deformation Coordination and Dynamic Softening Mechanisms of Hot-Compressed 1060al/Sic-6061al/1060al Composites
Effects of Layer Thickness Ratio on Deformation Coordination and Dynamic Softening Mechanisms of Hot-Compressed 1060al/Sic-6061al/1060al Composites Open
View article: Microstructure Evolution During Room-Temperature Tensile Deformation and Trip Effect-Dominated Strength-Ductility Synergy Mechanism of (Fe40mn20co20cr15si5)100- X Cu X Dual Phase High Entropy Alloy Prepared by Friction Stir Cu Alloying
Microstructure Evolution During Room-Temperature Tensile Deformation and Trip Effect-Dominated Strength-Ductility Synergy Mechanism of (Fe40mn20co20cr15si5)100- X Cu X Dual Phase High Entropy Alloy Prepared by Friction Stir Cu Alloying Open
View article: Microstructure and Tensile Properties of a Large-Scale Ti-4.5al-3v-2mo-2fe Alloy Plate with Ultrafine Grains Prepared by Multi-Pass Friction Stir Processing
Microstructure and Tensile Properties of a Large-Scale Ti-4.5al-3v-2mo-2fe Alloy Plate with Ultrafine Grains Prepared by Multi-Pass Friction Stir Processing Open
View article: Sintering Densification Kinetics and Microstructural-Property Evolution of Ultrafine Molybdenum Powders
Sintering Densification Kinetics and Microstructural-Property Evolution of Ultrafine Molybdenum Powders Open
View article: Effect of Al0.5CoCrFeNiTi0.5 binder on WC grain growth inhibition and strengthening-toughening of WC-based cemented carbides
Effect of Al0.5CoCrFeNiTi0.5 binder on WC grain growth inhibition and strengthening-toughening of WC-based cemented carbides Open
View article: Deformation Coordination Behaviors and Microstructure Evolution of 1060al/6061al-Sic/1060al Composites During Hot Deformation
Deformation Coordination Behaviors and Microstructure Evolution of 1060al/6061al-Sic/1060al Composites During Hot Deformation Open
View article: Solute-induced precipitation nanosized Ti-rich phase greatly enhances the plasticity of Mo-Ti-Zr alloys
Solute-induced precipitation nanosized Ti-rich phase greatly enhances the plasticity of Mo-Ti-Zr alloys Open
View article: Mechanisms of Wc Grain Growth Inhibition and Strengthening-Toughening in Wc-Based Cemented Carbides with Al0.5cocrfeniti0.5 Binder
Mechanisms of Wc Grain Growth Inhibition and Strengthening-Toughening in Wc-Based Cemented Carbides with Al0.5cocrfeniti0.5 Binder Open
View article: Multiscale Analysis of High Impact Toughness in a Novel Low-Cost Titanium Alloy
Multiscale Analysis of High Impact Toughness in a Novel Low-Cost Titanium Alloy Open
View article: Martensite-Embedded Heterostructured Interface with Extraordinary Synergistic Strain Accommodation in a Twip/If/Twip Multilayered Steel Composite
Martensite-Embedded Heterostructured Interface with Extraordinary Synergistic Strain Accommodation in a Twip/If/Twip Multilayered Steel Composite Open
View article: Preparation and Characterization of Nano Molybdenum Powder Via a Novel Freeze-Drying Method
Preparation and Characterization of Nano Molybdenum Powder Via a Novel Freeze-Drying Method Open
View article: Preparation and Characterization of Nano Molybdenum Powder Via a Novel Freeze-Drying Method
Preparation and Characterization of Nano Molybdenum Powder Via a Novel Freeze-Drying Method Open
View article: Effects of stacking sequence of the layers on deformation behavior and microstructure evolution of Ti/Ni laminated metal composites
Effects of stacking sequence of the layers on deformation behavior and microstructure evolution of Ti/Ni laminated metal composites Open
The effect of stacking sequence of the layers on the deformation behavior, microstructure evolution, and mechanical properties of Ti/Ni laminated metal composites (LMCs) fabricated by roll-bonding was studied. The results indicated that Ti…