Daohui Xiang
9 Papers
7 Citations
Daohui Xiang is an academic researcher. The author has contributed to research in topics: Machining & Ultrasonic sensor. The author has an hindex of 3, co-authored 8 publications.
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Papers
Finite element analysis of ultrasonic assisted milling of SiCp/Al composites
Daohui Xiang,Shi Zhanli,Haoren Feng,Wu Bangfu,Zhang Zhimeng,Yanbin Chen,Xiaoxiao Niu,Bo Zhao +7 more
TL;DR: In this article, a two-dimensional simulation model of single particle, multi-particle, and homogeneous materials was established to investigate the particle rupture process and the temperature variation during the processing of high volume SiCp/Al composites under different processing parameters.
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Ultrasonic vibration-assisted grinding of blind holes and internal threads in cemented carbides
TL;DR: In this article, a method for machining blind holes and internal threads in carbide by ultrasonic vibration-assisted grinding is introduced, which combines ultrasonic assisted grinding with helical mill-grinding to machine cemented carbide via a diamond form grinding wheel.
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Study on thrust force of ultrasonic-assisted vibration micro-hole drilling of titanium alloy
TL;DR: In this article, the authors established a thrust force model based on the motion trajectories of the cutting edges both in the ultrasonic-assisted axial vibration drilling and the conventional drilling.
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Finite Element and Experimental Analysis of Ultrasonic Vibration Milling of High-Volume Fraction SiCp/Al Composites
TL;DR: In this paper, the authors used finite element analysis and experiment to study the machining performance of high-volume fraction SiCp/Al composites in longitudinal-torsional ultrasonic-assisted milling (LTUAM), and its feasibility was evaluated by comparing with conventional Milling (CM).
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Surface characteristics investigation of ultrasonic longitudinal-torsional milling of high–volume fraction SiCp/Al
TL;DR: In this article, a finite element simulation analysis of the SiC particle machining process was conducted to study the influence of different ultrasonic amplitudes on the surface characteristics of SiCp/Al material.
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