Chao Xian scite author profile

The vibration of grinding tools is very essential to the performance of parts and the safety of machine tools. However, the vibrationis rarely studied in the process of polishing aeroengine blade with abrasive cloth wheel. Polishing force is measured by dynamometer in the process of polishing aeroengine blade with abrasive cloth wheel, and the time-domain expressions of polishing force are obtained. Time-domain and frequency-domain vibration solutions of position at which the abrasive cloth wheel is installed under the coupling of axial force and normal force are obtained by the simulation method. The results show that the total displacement is approximately equal to the displacement in the normal direction. The frequency-domain characteristics of axial force and normal force are similar. The frequency-domain characteristics of vibration in x, y, and z directions are similar. The component frequencies of polishing force are not the same as the component frequencies of rod vibration, which means the vibration is not stable. The range of spindle speed to avoid resonance in polishing process is calculated.

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Study on avoiding the knife marks of the blade after polishing by flap disc

Liu

Shi

Lin

et al. 2019

Int J Adv Manuf Technol

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Experimental study on energy partition of polishing aero-engine blades with abrasive cloth wheel

Xian

Shi

Lin

et al. 2019

Int J Adv Manuf Technol

View full text Add to dashboard Cite

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Chao Xian

Quasi-static fracturing in double-flawed specimens under uniaxial loading: the role of strain rate

Study on improving surface residual stress of polished blade after polishing based on two-stage parameter method

Study on Vibration Characteristics of Polishing Rod for Polishing Aeroengine Blade with Abrasive Cloth Wheel

Study on avoiding the knife marks of the blade after polishing by flap disc

Experimental study on energy partition of polishing aero-engine blades with abrasive cloth wheel

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