Materials (Feb 2020)

On the Determination of Forming Limits in Polycarbonate Sheets

  • Ana Rosa-Sainz,
  • Gabriel Centeno,
  • Maria Beatriz Silva,
  • Jose Andrés López-Fernández,
  • Andrés Jesus Martínez-Donaire,
  • Carpoforo Vallellano

DOI
https://doi.org/10.3390/ma13040928
Journal volume & issue
Vol. 13, no. 4
p. 928

Abstract

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By proposing an adaptation of the methodology usually used in metal forming, this paper aims to provide a general procedure for determining the forming limits, by necking and fracture, of polymeric sheet. The experimental work was performed by means of Nakajima specimens with different geometries to allow to obtain strains in the tensile, plane, biaxial and equibiaxial states for Polycarbonate sheet with 1 mm of thickness. The application of the time-dependent and flat-valley approaches used in metals has been revealed appropriate to characterize the onset of necking and obtain the forming limits of polycarbonate, despite the stable necking propagation typical of polymeric sheets. An analysis of the evolution of the strain paths along a section perpendicular to the crack allowed for a deeper understanding of the steady necking propagation behaviour and the adoption of the methodology of metals to polymers. The determination of the fracture strains was enhanced with the consideration of the principal strains of the DIC system in the last stage, just before fracture, due to the significant elastic recovery typical of polymeric sheets. As a result of this analysis, accurate formability limits by necking and fracture are obtained for polycarbonate sheet, together with the principal strain space, providing a general framework for analysing incremental sheet forming processes where the knowledge of the fracture limits is relevant.

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