Improving peening efficacy through high-amplitude short duration pulsed current

Weidong Zhao, Daoxin Liu, Hao Zhang, Jun Liu, Chi Ma, Ruixia Zhang, Tao Huang, Yalin Dong, Chang Ye, Han Ding

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

The efficacy of peening treatment depends on the plasticity of the target metal. In this study, the effectiveness of high-amplitude short duration pulsed current in improving the peening efficacy was examined in a process called electropulsing-assisted ultrasonic nanocrystal surface modification (EP-UNSM). During the EP-UNSM process, the target metal, i.e., Ti64, is subjected to simultaneous ultrasonic peening and electropulsing. The high energy pulsed current can generate a critical magnetic field that can induce the transition of the radical pairs formed by dislocations and the pinning obstacles from the singlet state to the triplet state. This leads to higher dislocation mobility and thus higher plasticity for more effective peening treatment. The results show that the sample treated with EP-UNSM had a deeper plastically deformed layer than that for samples subjected to UNSM and continuous current–assisted UNSM (CC-UNSM), and the maximum depth of plastic deformation was obtained when using the highest peak current density. Due to microstructure refinement, work hardening, and dynamic strain aging, the EP-UNSM sample had a 50% higher surface hardness compared with the control sample. Moreover, the compressive residual stresses generated by EP-UNSM were higher in magnitude and greater in depth compared to those generated by traditional UNSM. These results demonstrate that pulsed current can effectively improve the peening efficacy and EP-UNSM is an effective method for strengthening Ti64.

Original languageEnglish
Article number166987
JournalJournal of Alloys and Compounds
Volume926
DOIs
StatePublished - 10 Dec 2022

Keywords

  • Athermal effect
  • Compressive residual stress
  • Electroplasticity
  • Electropulsing-assisted ultrasonic nanocrystal surface modification
  • Pulsed current
  • Thermal effect

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