Dyna (Apr 2020)

Modification of Charpy machine for the acquisition of stress-strain curve in thermoplastics

  • Luis Miguel Zabala Gualtero,
  • Ulises Figueroa López,
  • Andrea Guevara Morales,
  • Alejandro Rojo Valerio

DOI
https://doi.org/10.15446/dyna.v87n213.83469
Journal volume & issue
Vol. 87, no. 213

Abstract

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Simulations of impact events in the automotive industry are now common practice. Vehicle crashworthiness simulations on plastic components cover a wide range of strain rates from 0.01 to 500 s-1. Because plastics mechanical properties are very dependent on strain rate, developing experimental methods for generating stress-strain curves at this strain rate range is of great technological importance. In this paper, a modified Charpy machine capable of acquiring useful information to obtain the stress-strain curve is presented. Strain rates between 300 to 400 s-1 were achieved. Three thermoplastics were tested: high-density polyethylene, polypropylene-copolymer and polypropylene-homopolymer. Impact simulations using LS-DYNA were performed using the acquired high-strain rates stress-strain curves and compared with experimental data. Simulations using stress-strain curves from quasi-static tests were also performed for comparison. Very good agreement between the simulation and experimental results was found when the ASTM D1822 type S specimen was used for testing each material.

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