In this paper, the printing temperature ranges of PLA and PEEK, two semi-crystalline thermoplastics, have been investigated for the Fused Filament Fabrication (FFF) process. The printing range, comprised between the melting temperature and the degradation of each polymer, is 160°C to 190°C for PLA and 350°C to 390°C for PEEK. The complex viscosity has been measured for both polymers within the printing range. The kinetics of coalescence has been registered by measuring the bonding length between two filaments of the same polymer according to the temperature. At 167°C, the filaments of PLA reached the maximum value of bonding length. For PEEK, the filaments reached the maximum value of bonding length at 380°C. For the both materials, the final height of the filament is 80% of the initial diameter. The comparison of the obtained results with experimental study and predictive model shows a good agreement when the polymer is totally in fusion state.
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16 October 2017
PROCEEDINGS OF THE 20TH INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING: ESAFORM 2017
26–28 April 2017
Dublin, Ireland
Research Article|
October 16 2017
Toward improvement of the properties of parts manufactured by FFF (fused filament fabrication) through understanding the influence of temperature and rheological behaviour on the coalescence phenomenon
Bakrani Balani Shahriar;
Bakrani Balani Shahriar
a)
1
LGP-ENIT-INPT, University of Toulouse
, 47 Avenue d’Azereix, BP1629-65016 Tarbes Cedex, France
Web Page: http://www.enit.fr/2
Institut Clément Ader (ICA), CNRS UMR 5312, University of Toulouse
, IUT of Tarbes, UPS, France
Web Page: http://www.institut-clement-ader.org/
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Chabert France;
Chabert France
b)
1
LGP-ENIT-INPT, University of Toulouse
, 47 Avenue d’Azereix, BP1629-65016 Tarbes Cedex, France
Web Page: http://www.enit.fr/
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Nassiet Valerie;
Nassiet Valerie
c)
1
LGP-ENIT-INPT, University of Toulouse
, 47 Avenue d’Azereix, BP1629-65016 Tarbes Cedex, France
Web Page: http://www.enit.fr/
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Cantarel Arthur;
Cantarel Arthur
d)
2
Institut Clément Ader (ICA), CNRS UMR 5312, University of Toulouse
, IUT of Tarbes, UPS, France
Web Page: http://www.institut-clement-ader.org/
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Garnier Christian
Garnier Christian
e)
1
LGP-ENIT-INPT, University of Toulouse
, 47 Avenue d’Azereix, BP1629-65016 Tarbes Cedex, France
Web Page: http://www.enit.fr/
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a)
Corresponding author: sbakrani@enit.fr
AIP Conf. Proc. 1896, 040008 (2017)
Citation
Bakrani Balani Shahriar, Chabert France, Nassiet Valerie, Cantarel Arthur, Garnier Christian; Toward improvement of the properties of parts manufactured by FFF (fused filament fabrication) through understanding the influence of temperature and rheological behaviour on the coalescence phenomenon. AIP Conf. Proc. 16 October 2017; 1896 (1): 040008. https://doi.org/10.1063/1.5008034
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