2017
DOI: 10.1016/j.surfcoat.2017.01.099
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Effect of ultrasonic surface rolling at low temperatures on surface layer microstructure and properties of HIP Ti-6Al-4V alloy

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Cited by 70 publications
(21 citation statements)
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“…With the dislocation accumulating at the grain boundaries, the dislocation density was increased. titanium material was only about 20 m to 60 m [15][16][17]. According to the Hall-Petch relationship [26], the microhardness of the material surface and severe plastic deformation layer could be increased by good grain refinement, and the work hardening effect will be produced by plastic compressive deformation, which resulted from the high frequency ultrasonic surface impacts.…”
Section: Resultsmentioning
confidence: 99%
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“…With the dislocation accumulating at the grain boundaries, the dislocation density was increased. titanium material was only about 20 m to 60 m [15][16][17]. According to the Hall-Petch relationship [26], the microhardness of the material surface and severe plastic deformation layer could be increased by good grain refinement, and the work hardening effect will be produced by plastic compressive deformation, which resulted from the high frequency ultrasonic surface impacts.…”
Section: Resultsmentioning
confidence: 99%
“…Based on the methodology presented in the previous investigations of Qu et al on titanium alloy with hardness of 325 HV [15][16][17], the residual stress and hardened depth of modified layer was increased when the static force was increased from 600 N to 900 N. Hence, optimized processing parameters of USR were chosen and they are listed in Table 3. The applied static force was chosen at 900 N and the amplitude of vibration was set at 10 m. The frequency of ultrasonic vibration was respectively chosen at 20 kHz and 30 kHz, and an air compressor was used to support the static force at a certain air pressure.…”
Section: Methodsmentioning
confidence: 99%
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