Characterization of thermally treated polypropylene powders with wide sintering window for powder bed fusion of polymers

One key issue restricting semi-crystalline polymers to be widely applied in powder bed fusion (PBF) of polymers is lack of good powder processability, especially a wide sintering window. In this work, a thermal treatment method with mixed dispersant system (TTMS) was developed to modify a common iso...

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Bibliographic Details
Published in:Polymer testing 2021-04, Vol.96, p.107078, Article 107078
Main Authors: Gong, Xiaodi, Gao, Xia, Yu, Ning, Zhang, Daijun, Tan, Luxi, Li, Jing
Format: Article
Language:English
Subjects:
Part deformation
Polypropylene
Powder bed fusion
Sintering window
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Summary:One key issue restricting semi-crystalline polymers to be widely applied in powder bed fusion (PBF) of polymers is lack of good powder processability, especially a wide sintering window. In this work, a thermal treatment method with mixed dispersant system (TTMS) was developed to modify a common isotactic polypropylene (PP) powder to adapt for PBF. Both sintering window (SW) and particle morphology of the PP powder were improved by the TTMS process. The SW was expanded from 15 °C for the raw PP powder to 51 °C for the TTMS-PP powder, since the TTMS process facilitated the formation of α crystal with larger lamellar thickness as revealed by differential scanning calorimeter and X-ray diffraction measurements. Moreover, the particle size of the TTMS-PP powder was reduced to 60 μm, which was only a third of the raw PP's size. Consequently, the TTMS-PP powder exhibited a lower flow energy compared to the raw PP powder. These improvements contributed to a better laser processability of the TTMS-PP powder, as demonstrated by the single-layer component with reduced part deformation and better dimensional accuracy. This work is believed to provide a useful guideline for the development of semi-crystalline polymer powders for the PBF technology. •A thermal treatment method was used to modify isotactic propylene powder to adapt for powder bed fusion process.•The sintering window (SW) was expanded from 15 °C for the raw PP powder to 51 °C for the TTMS-PP powder.•The increased SW contributed to the reduction in part deformation of the sintered parts.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2021.107078