On the PLC Effect in a Particle Reinforced AA2017 Alloy

Härtel, M.; Illgen, C.; Frint, P.; Wagner, M. F.-X.

doi:10.3390/met8020088

On the PLC Effect in a Particle Reinforced AA2017 Alloy (bibtex)

by M. Härtel, C. Illgen, P. Frint, M. F.-X. Wagner

Abstract:

The Portevin–Le Châtelier (PLC) effect often results in serrated plastic flow during tensile testing of aluminum alloys. Its magnitude and characteristics are often sensitive to a material’s heat treatment condition and to the applied strain rate and deformation temperature. In this study, we analyze the plastic deformation behavior of an age-hardenable Al-Cu alloy (AA2017) and of a particle reinforced AA2017 alloy (10 vol. % SiC) in two different conditions: solid solution annealed (W) and naturally aged (T4). For theW-condition of both materials, pronounced serrated flow is observed, while both T4-conditions do not show distinct serrations. It is also found that a reduction of the testing temperature (-60 °C, -196 °C) shifts the onset of serrations to larger plastic strains and additionally reduces their amplitude. Furthermore, compressive jump tests (with alternating strain rates) at room temperature confirm a negative strain rate sensitivity for the W-condition. The occurring PLC effect, as well as the propagation of the corresponding PLC bands in the W-condition, is finally characterized by digital image correlation (DIC) and by acoustic emission measurements during tensile testing. The formation of PLC bands in the reinforced material is accompanied by distinct stress drops as well as by perceptible acoustic emission, and the experimental results clearly show that only type A PLC bands occur during testing at room temperature (RT).

Reference:

Härtel, M., Illgen, C., Frint, P., Wagner, M. F.-X.: On the PLC Effect in a Particle Reinforced AA2017 Alloy, Metals 8, 88, 2018.

Bibtex Entry:

@Article{Haertel2018a,
  author    = {Härtel, M. and Illgen, C. and Frint, P. and Wagner, M. F.-X.},
  title     = {On the {PLC} Effect in a Particle Reinforced {AA}2017 Alloy},
  journal   = {Metals},
  year      = {2018},
  volume    = {8},
  number    = {2},
  pages     = {88},
  month     = {jan},
  abstract  = {The Portevin–Le Châtelier (PLC) effect often results in serrated plastic flow during tensile testing of aluminum alloys. Its magnitude and characteristics are often sensitive to a material’s heat treatment condition and to the applied strain rate and deformation temperature. In this study, we analyze the plastic deformation behavior of an age-hardenable Al-Cu alloy (AA2017) and of a particle reinforced AA2017 alloy (10 vol. % SiC) in two different conditions: solid solution annealed (W) and naturally aged (T4). For theW-condition of both materials, pronounced serrated flow is observed, while both T4-conditions do not show distinct serrations. It is also found that a reduction of the testing temperature (-60 °C, -196 °C) shifts the onset of serrations to larger plastic strains and additionally reduces their amplitude. Furthermore, compressive jump tests (with alternating strain rates) at room temperature confirm a negative strain rate sensitivity for the W-condition. The occurring PLC effect, as well as the propagation of the corresponding PLC bands in the W-condition, is finally characterized by digital image correlation (DIC) and by acoustic emission measurements during tensile testing. The formation of PLC bands in the reinforced material is accompanied by distinct stress drops as well as by perceptible acoustic emission, and the experimental results clearly show that only type A PLC bands occur during testing at room temperature (RT).},
  doi       = {10.3390/met8020088},
  publisher = {{MDPI} {AG}},
}