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[1] Ultrasonic-magnetic coupling field preparation microstructure and properties of in-situ nano-(ZrB2+Al2O3)/6016Al composites
[2] Microstructure and Creep Properties of In situ ZrB2/AA6016 Composites Assisted by Ultrasonic treatment
[3] Ultralow-Power Highly-Selective Near-Infrared (≈850 nm) Carbon Nanotube Flexible Optoelectronic Synaptic Transistors for Real-Time Trajectory Tracking
[4] Influence of Electromagnetic Ultrasound Dual Field Coupling In Situ Synthesis of (ZrB2 + Al3Zr)/AA6016 Composites on the Structure and Properties
[5] Microstructure and Plastic Instability of (ZrB2 + Al3Zr)/AA6016 Composites Prepared by Melt Reaction Method
[6] High-Temperature Friction Wear Behavior of (AlB2+ Al2O3)/A356 Composites Regulated by Acoustic-Magnetic Coupling Field
[7] Study on Friction Properties of In Situ Synthesized (AlB2 + Al2O3)/A356 Composite
[8] Correction: Influence of Electromagnetic Ultrasound Dual Field Coupling In Situ Synthesis of (ZrB2 + Al3Zr)/AA6016 Composites on the Structure and Properties (International Journal of Metalcasting, (2022), 10.1007/s40962-022-00893-8)
[9] Preparation of in-situ ZrB2/A356 composites and high-temperature tribological studies
[10] 原位生成Al3Zr/Al基复合材料等离子焊接组织及表面腐蚀行为(英文)
[11] Microstructure and Mechanical Properties of In Situ AlB2/A356 Composites Under T6 Treatment
[12] Microstructure and tribological behavior of in situ ZrB2/A356 composites prepared under magnetic field
[13] Study on Microstructure Evolution and Strengthening and Toughening of Friction Stir Processed AA6082-4%Al3Zr In-Situ Composites
[14] Surface Friction and Wear Behavior of In Situ AlB2 Particle-Reinforced A356 Composites
[15] 新工科背景下《复合材料工艺学》课程建设与教改探索
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