Published April 1, 2026 | Version v1

Crystallization Behavior of Recycled Semi-Crystalline Polymers in 3D Printing: Progress, Challenges, and Opportunities

  • 1. Universiti Malaysia Perlis
  • 2. ROR icon University of Malta
  • 3. University of Malta Faculty of Engineering

Description

In recent years, plastic recycling has emerged as a critical concern in environmental pro
tection and waste management. Among the various techniques for repurposing plastic
waste into valuable products, extrusion of filaments for 3D printing has proven to be a
highly effective method. A thorough understanding of the crystallization behavior of
recycled plastics used in 3D printing is essential, as it significantly influences their final
performance. This review provides an in-depth analysis of the crystallization behavior
and crystallinity of recycled semi-crystalline polymers, with particular emphasis on re
cycled commodity plastics such as recycled polyethylene terephthalate (rPET), recycled
polypropylene (rPP), and recycled high-density polyethylene (rHDPE). Recent research
published between 2015 and 2025 was systematically synthesized and provides information
on sources of plastic waste, additives employed, and recycling processes involved, with
the findings summarized in a table that highlights their effects on polymer crystallinity.
Furthermore, the key factors impacting the crystallinity of 3D-printed recycled plastics
were examined, including the influence of additives, multiple processing cycles, printing
parameters, and thermal treatments. Research gaps and the challenges faced during the
printing process were also identified and discussed. By consolidating recent findings, this
review provides a comprehensive understanding of the crystallization behavior of recycled
plastics in 3D printing, thereby providing guidance for future research and developing
strategies to optimize the performance of these materials.

Files

Crystallization_behavior_of_recycled_semi_crystalline_polymers_in_3D_printing.pdf

Additional details

Funding

European Commission
CPW - ELUCIDATION OF CRYSTALLISATION PROCESS USING FFF 3D PRINTER ASSISTED IR THERMAL IMAGING TECHNIQUE ON PLASTIC WASTE 101110016