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[1]Thermal stability and interfacial damage behavior of W5Re/Ti-Zr-Mo layered composites under extreme thermal environments.Journal of Alloys and Compounds, 2025, 1051: 185999.
[2]Microstructure, mechanical properties and texture evolution behavior of cross-rolling W5Re/TiZrMo layered composites.Journal of Alloys and Compounds, 2025, 1043: 184260.
[3]Effect of heat treatment on microstructure and mechanical properties of tungsten heavy alloy with a non-equiatomic Ni5.5Fe2.5CoCr high-entropy binder.International Journal of Refractory Metals and Hard Materials, 2025, 128: 107096.
[4]Synergistic strengthening-toughening strategy for additively manufactured tungsten heavy alloys via alloying element-induced hierarchical microstructures.Chemical Engineering Journal, 2025, 525: 170087.
[5]Effect of rolling reduction on the texture evolution and mechanical properties hot-rolled WMoTaV refractory high entropy alloy with interfacial segregation.Materials Science & Engineering A, 2025, 927: 148010.
[6]Revealing the solidification microstructure evolution andstrengthening mechanisms of additive-manufactured W-FeCrCoNialloy: Experiment and simulation.Journal of Materials Science & Technology, 2025, 204: 302-313.
[7]Ultrastrong, high plasticity, and softening-resistant refractory high-entropy alloy via stable isostructural coherent interfaces.Scripta Materialia, 2025, 254: 116337.
[8]Microstructure and strengthening mechanisms in fine-grained and high-strength tungsten heavy alloy with a non-equiatomic Ni5.5Fe2.5CoCr high-entropy binder.Materials Science & Engineering A, 2024, 908: 146769.
[9]A CuZnMnNiSi alloy interlayer reinforced W alloy/304 stainless steel composite with excellent interfacial strength.International Journal of Refractory Metals and Hard Materials, 2023, 116: 106316.
[10]Microstructures and mechanical properties of novel MoTaVW refractory high-entropy alloys.Journal of Alloys and Compounds, 2023, 968: 172165.
[11]A novel Nb-W-C alloy with special microstructure and excellent mechanical property.Journal of Alloys and Compounds, 2023, 968: 172178.
[12]Microstructure and strength of diffusion bonding W alloy/304 stainless steel joint using a Cu interlayer.International Journal of Refractory Metals and Hard Materials, 2023, 113: 106188.
[13]Additive manufactured high-strength tungsten composite with high deformability by using a novel CoCrNi medium-entropy binder.Composites Part B, 2022, 246: 110256.
[14]A novel dissolution-precipitation mechanism during liquid phase sintering and its strengthening effects in W-Ni-Fe alloys with low W contents.Materials & Design, 2022, 220: 110841.
[15]Powder Extrusion Printing and Sintering Densification Behaviors of Ultrafine 98W-1Ni-1Fe Alloy Powder.Crystals, 2022, 12: 875.
[16]The effects of SiC addition on the sintering densification, phases, microstructure and mechanical properties of W.International Journal of Refractory Metals and Hard Materials, 2021, 98: 105528.
[17]Size-Dependent Alloying Ability of ImmiscibleW-Cu Bimetallic Nanoparticles: A Theoretical and Experimental Study.Nanomaterials, 2021, 11: 1047.
[18]Nano-in-situ-composite ultrafine-grained WeY2O3 materials: Microstructure, mechanical properties and high heat load performances.Journal of Alloys and Compounds, 2021, 855: 157366.
[19]Additive manufacturing of W–Fe composites using laser metal deposition: Microstructure, phase transformation, and mechanical properties.Materials Science & Engineering A, 2021, 811: 141036.
[20]SiC as sintering aids: A tactic to remove impurity oxygen and reaction interface structure characterization.International Journal of Refractory Metals and Hard Materials, 2021, 100: 105640.
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