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Enhancement of Mechanical Properties of FDM‐PLA Parts via Thermal Annealing
Authors:Radoslaw A. Wach  Piotr Wolszczak  Agnieszka Adamus‐Wlodarczyk
Affiliation:1. Institute of Applied Radiation Chemistry, Faculty of Chemistry, Lodz University of Technology, Lodz, Poland;2. Department of Automation, Lublin University of Technology, Lublin, Poland
Abstract:The objective of this study is to investigate the possibility of enhancing mechanical properties of poly(lactic acid) (PLA) samples processed by a rapid manufacturing (RM) technique by increasing PLA crystallinity degree via thermal annealing. The samples are manufactured by fused deposition modeling (FDM) at different temperatures and subsequently evaluated by three‐point bending flexural and tensile tests. The polymer processed at 215 °C is thermally annealed over its glass transition temperature in order to increase the degree of crystallinity to the maximum attainable level as measured by the differential scanning calorimetry and confirmed by X‐ray diffraction. The increase in the degree of crystallinity of FDM‐PLA enhances flexural stress of the samples by 11–17%. The study also demonstrates applicability of radiation sterilization for FDM‐PLA parts. Therefore, thermal annealing might be introduced into a standard RM technology of PLA, particularly for sterilizable customized implants, to efficiently improve their mechanical properties.
Keywords:crystallinity degree  FDM  poly(lactic acid)  radiation sterilization  thermal annealing
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