MECHANISM OF FATIGUE PERFORMANCE ENHANCEMENT IN A SUPERHARD NANOPARTICLES INTEGRATED NANOCOMPOSITES BY A HYBRID MANUFACTURING TECHNIQUE

机译：混合制造技术在集成纳米复合材料中的纳米复合材料中疲劳性能的增强机制。

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A hybrid manufacturing process, which contains Laser Sintering (LS) and Laser shock peening (LSP), is introduced to generate iron-TiN nanoparticle nanocomposites. It is a two-step process including LS followed with LSP. Before LS, TiN nanoparticles mixed with iron powders are coated on samples surface. After LS, TiN nanoparticles are embedded into iron matrix to strengthen materials. Then LSP is performed to introduce work hardening and compressive residual stress. The existed nanoparticles increase the dislocation density and also help to pin the dislocation movement. Better residual stress stability under thermal annealing can be obtained by better dislocation movement stabilization, which is beneficial for fatigue performance.

机译：引入了包含激光烧结（LS）和激光冲击喷丸（LSP）的混合制造过程，以生成铁-TiN纳米颗粒纳米复合材料。这是一个分为两步的过程，包括LS和LSP。在LS之前，将TiN纳米颗粒与铁粉混合后涂覆在样品表面。 LS之后，将TiN纳米颗粒嵌入铁基质中以增强材料。然后进行LSP引入工作硬化和压缩残余应力。存在的纳米颗粒增加了位错密度，并且还有助于固定位错运动。通过更好的位错运动稳定化可以获得在热退火下更好的残余应力稳定性，这对疲劳性能是有利的。

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《ASME international manufacturing science and engineering conference》|2013年|V001T01A051.1-V001T01A051.10|共10页
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Dong Lin; Chang Ye; Sergey Suslov; Yiliang Liao; C. Richard Liu; Gary J. Cheng;
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1. Mechanism of fatigue performance enhancement in a laser sintered superhard nanoparticles reinforced nanocomposite followed by laser shock peening [J] . Lin Dong, Ye Chang, Liao Yiliang, Journal of Applied Physics . 2013,第13期

机译：激光烧结超硬纳米颗粒增强纳米复合材料的疲劳性能增强机制，然后进行激光冲击喷丸
2. Mechanism of fatigue performance enhancement in a laser sintered superhard nanoparticles reinforced nanocomposite followed by laser shock peening [J] . Dong Lin, Chang Ye, Yiliang Liao, Journal of Applied Physics . 2013,第13期

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MECHANISM OF FATIGUE PERFORMANCE ENHANCEMENT IN A SUPERHARD NANOPARTICLES INTEGRATED NANOCOMPOSITES BY A HYBRID MANUFACTURING TECHNIQUE

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