已发表成果:
WOK 论文 15 篇;中文核心 2 篇;专利发明 5 个;
Effect of Pre-Existing Dislocations and Precipitates on Microstructure Evolution in W-0.5zrc Alloy During In-Situ He+ & H2+ Dual-Beam Synergistic Irradiation
Unique Structured Inner Oxide Layers Formed on the Austenitic Ods Steel Exposed to Supercritical Water
<i>In situ</i> studies on the evolution of damage microstructures in tungsten under heavy ion irradiation and post annealing
Effect of different pre-existing dislocation densities on the microstructure evolution of W-0.5ZrC alloy during in-situ He plus irradiation
Development of a heavy ion beam probe diagnostic for HL-2A tokamak
Effect of dose rate on dislocation loop evolution in tungsten: Combination of defect generation rate and elastic interaction
Effect of Damage Rate on the Cavity Swelling of Pure Nickel Irradiated with Triple Ion Beams
<p>In-situ TEM investigation of dislocation loop evolution in Al-forming austenitic stainless steels during Fe+ irradiation: Effects of irradiation dose and pre-existing dislocations</p>
In-situ transmission electron microscopy observation of the evolution of dislocation loops and gas bubbles in tungsten during H2+ and He+ dual-beam irradiation
In situ transmission electron microscopy study and molecular dynamics simulation of dislocation loop evolution in FeCrAl alloys under Fe+ irradiation
Helium-hydrogen synergistic effects on swelling in in-situ multiple-ion beams irradiated steels*
Correction to: In-situ transmission electron microscopy observation of the evolution of dislocation loops and gas bubbles in tungsten during H2+ and He+ dual-beam irradiation (Tungsten, (2021), 3, 4, (434-447), 10.1007/s42864-021-00104-7)
Ultrafine-grained W alloy prepared by spark plasma sintering with high thermal stability and excellent irradiation resistance
Nanocrystalline W-based alloys with ultrahigh hardness and exceptional irradiation tolerance
Comparison of vacancy sink efficiency of Cu/V and Cu/Nb interfaces by the shared Cu layer
Mo和Mo-0.25La合金的氢离子辐照行为
材料热处理学报,1009-6264,2020-11-16.一种新型核级FeCrAl合金的离子辐照行为
材料热处理学报,1009-6264,2019-06-25.