纳米铝颗粒对水浸淬火冷却性能及淬硬程度的影响

G. Ramesh, K. Prabhu
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引用次数: 5

摘要

在本工作中,研究了加入浓度为0.001 ~ 0.5 vol. %的铝纳米粒子对水在浸没淬火过程中的冷却性能和淬急程度的影响。冷却曲线分析结果表明,纳米颗粒浓度的增加使临界温度下的冷却速率增加到0.05 vol. %,此后冷却速率降低。在纳米流体中淬火也改变了从蒸汽包层阶段到成核沸腾阶段的转变。利用有限差分换热程序,根据淬火探针材料的热物性,生成不同换热系数值下的冷却曲线。建立了格罗斯曼H猝灭强度与冷却速率的关系曲线,并根据该曲线估算了制备的纳米流体的H因子。当纳米粒子浓度增加到0.05 vol. %时,水的H值从63 m−1增加到93 m−1,而纳米粒子浓度的进一步增加导致H值的降低。结果表明,纳米铝粒子的加入既增强了水的冷却性能,也降低了水的冷却性能。
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Effect of Addition of Aluminum Nanoparticles on Cooling Performance and Quench Severity of Water during Immersion Quenching
In the present work, the effect of the addition of aluminum nanoparticles in concentrations varying from 0.001 to 0.5 vol. % on the cooling performance and quench severity of water during immersion quenching is investigated. The results of cooling curve analyses show that an increase in nanoparticle concentration increased the cooling rates at critical temperatures up to 0.05 vol. % and decreased them thereafter. The transition from the vapor blanket stage to the nucleate boiling stage was also altered by quenching in nanofluids. A finite difference heat transfer program was employed to generate cooling curves at different values of heat transfer coefficient from thermo-physical properties of the quench probe material. A Grossmann H quench severity versus cooling rate curve was established, and from this curve, the H factors of prepared nanofluids were estimated. An increase in nanoparticle concentration up to 0.05 vol. % resulted in an increase of the H value of water from 63 m−1 to 93 m−1, and any further increase in the concentration of nanoparticles resulted in a decrease in H. The results suggest both the enhancement and the deterioration of the cooling performance of water by the addition of aluminum nanoparticles.
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