Surface Thermodynamic Properties of Poly Lactic Acid by Inverse Gas Chromatography

Tayssir Hamieh*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Poly lactic acid (PLA) is one of the most commonly used bio-derived thermoplastic polymers in 3D and 4D printing applications. The determination of PLA surface properties is of capital importance in 3D/4D printing technology. The surface thermodynamic properties of PLA polymers were determined using the inverse gas chromatography (IGC) technique at infinite dilution. The determination of the retention volume of polar and non-polar molecules adsorbed on the PLA particles filling the column allowed us to obtain the dispersive, polar, and Lewis’s acid–base surface properties at different temperatures from 40 °C to 100 °C. The applied surface method was based on our recent model that used the London dispersion equation, the new chromatographic parameter function of the deformation polarizability, and the harmonic mean of the ionization energies of the PLA polymer and organic molecules. The application of this new method led to the determination of the dispersive and polar free surface energy of the adsorption of molecules on the polymeric material, as well as the glass transition and the Lewis acid–base constants. Four interval temperatures were distinguished, showing four zones of variations in the surface properties of PLA as a function of the temperature before and after the glass transition. The acid–base parameters of PLA strongly depend on the temperature. The accurate determination of the dispersive and polar surface physicochemical properties of PLA led to the work of adhesion of the polar organic solvents adsorbed on PLA. These results can be very useful for achieving reliable and functional 3D and 4D printed components.
Original languageEnglish
Article number268
JournalBiomimetics
Volume9
Issue number5
DOIs
Publication statusPublished - 1 May 2024

Keywords

  • 3D/4D printing
  • acid and base surface energies
  • adhesion
  • enthalpic and entropic Lewis’s acid–base constants
  • glass transition
  • London and polar surface energies

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