Paper Publications

• [1] 王宏明.Microstructure and properties of FeCoNi1.5CuB0.5Y0.2 high-entropy alloy subject to high magnetic field treatment
• [2] 王宏明.Evolution of microstructure and mechanical properties of aluminum matrix composites reinforced with dual-phase heterostructures
• [3] 王宏明.Microstructure and properties of FeCoNiCrMn and Al2O3 hybrid particle-reinforced aluminum matrix composites fabricated by microwave sintering
• [4] 王宏明.Microstructure and properties of spinning deformed A356 alloy subject to the solution-DCT-aging multiplex heat treatment
• [5] 王宏明.Enhanced strength-ductility synergy of aging treated (FeCoNi1.5CrCu)p/2024Al composite
• [6] 王宏明.Microstructure and improved plasticity of (FeCoNi1.5CrCu)(p)/Al composites subject to adjusted deep cryogenic treatment (DCT)
• [7] 王宏明.Microstructure and properties of B4Cp/Al composite prepared by microwave sintering with low temperature
• [8] 王宏明.Microwave vacuum sintering of FeCoNi1.5CuB0.5Y0.2 high-entropy alloy: Effect of heat treatment on microstructure and mechanical property
• [9] 王宏明.Effect of TiB2 content on microstructure and mechanical properties of (TiB2P+B4CP)/Al composites fabricated by microwave sintering
• [10] 王宏明.Microstructure and properties of FeCoNi1.5CrCu/2024Al composites prepared by microwave sintering
• [11] 王宏明.Microstructure and properties of B4Cp /Al composite prepared by microwave sintering with low temperature
• [12] 王宏明.Mechanism of high magnetic field on aluminum matrix composites dislocation density
• [13] 王宏明.单级时效处理对6082铝合金型材微观组织的影响
• [14] 王宏明.Microwave vacuum sintering of FeCoNi1·5CuB0·5Y0.2 high-entropy alloy: Effect of heat treatment on microstructure and mechanical property
• [15] 王宏明.Effect of Simultaneous Magnetic Field and Deep Cryogenic Treatment on the Microstructure and Mechanical Properties of Aluminum-brass