Nanotribological investigation of the poly(3-hydroxybutyrate) films manufactured from the storage polyesters produced by Halomonas elongata DSM 2581

Abstract

Poly(3-hydroxybutyrate) (PHB) is a natural and biodegradable storage polyester, produced by numerous bacteria, which is considered a potential substituent for conventional plastics in the packaging industry. The improvement of the PHB material lifetime often involves the mechanical and tribological characterization which can be accurately performed on thin films. In this study, we aimed at the evaluation of the tribological properties, like adhesion force, friction coefficient and wear resistance, of different polyester films fabricated via the solvent casting method [1]. Three polyester films were designed in this study, each containing 1% w/v constituents as follows: a PHBh film prepared out of the PHB extracted from the extremely halotolerant bacteria Halomonas elongata DSM2581T, a PHBc film fabricated using a commercially available PHB and a PHBVc film generated using the commercial poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV). The spectroscopy-in-point of AFM was used for adhesion force measurement based on multiple tests performed in a matrix and the AFM lateral operating mode was applied for friction analysis under a controlled normal load. The fabricated PHBh film presented a thickness between 5 µm -7 µm, a lower adhesion force (14 nN) as well as a smaller friction coefficient (0.15) compared to the PHBc and PHBVc. The tribological investigations of PHBh film revealed a biodegradable material with low roughness as well as small adhesion and friction forces. Further optimization can be performed for the improvement of the PHBh film by copolymerization with other polymers, polyesters and reinforcers, thus generating a feasible material with advanced tribo-mechanical features. References [1] Cristea A, Pustan M, Birleanu C, Dudescu C, Floare CG, Tripon AM, Banciu HL. (2021) Mechanical evaluation of solvent casted poly(3-hydroxybutyrate) films derived from the storage polyesters produced by Halomonas elongata DSM 2581T. J Polym Environ, Submitted: ID: JOOE-S-21-00260.