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Surface plastic flow of three-dimensional printed polylactic acid in the tribological study of surface patterned polymer

M. Ando, M. Birosz, G. S. Gehlen, P. D. Neis, N. F. Ferreira and Jacob Sukumaran (UGent)
(2022) MEASUREMENT SCIENCE AND TECHNOLOGY. 33(2).
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Abstract
The potential of three-dimensional (3D) printing in polymer tribology is poorly explored. Material alignment and composition play vital roles in altering the friction and wear characteristics of 3D printed materials. In the current study, 3D patterns made by fused deposition modelling are used to print advanced tribo-composites. Two different surface patterns (line and circular) are provided through 3D printing using white and silver polylactic acid (PLA). The deformation and distribution of white and silver PLA over the samples surface are observed after a wear test. Results showed that the coefficient of friction is not influenced by changes in the surface pattern. However, the wear rate increased for samples with line patterns on the contact surface, since plastic flow was more significant in this case. Moreover, the filling factor exhibited an influence on increasing the plastic flow of the contact surface for samples with a line pattern.
Keywords
PROCESS PARAMETERS, TRANSFER FILM, MECHANICAL-PROPERTIES, PERFORMANCE, PARTS, 3D printing, surface pattern, polymer tribology

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MLA
Ando, M., et al. “Surface Plastic Flow of Three-Dimensional Printed Polylactic Acid in the Tribological Study of Surface Patterned Polymer.” MEASUREMENT SCIENCE AND TECHNOLOGY, vol. 33, no. 2, 2022, doi:10.1088/1361-6501/ac3549.
APA
Ando, M., Birosz, M., Gehlen, G. S., Neis, P. D., Ferreira, N. F., & Sukumaran, J. (2022). Surface plastic flow of three-dimensional printed polylactic acid in the tribological study of surface patterned polymer. MEASUREMENT SCIENCE AND TECHNOLOGY, 33(2). https://doi.org/10.1088/1361-6501/ac3549
Chicago author-date
Ando, M., M. Birosz, G. S. Gehlen, P. D. Neis, N. F. Ferreira, and Jacob Sukumaran. 2022. “Surface Plastic Flow of Three-Dimensional Printed Polylactic Acid in the Tribological Study of Surface Patterned Polymer.” MEASUREMENT SCIENCE AND TECHNOLOGY 33 (2). https://doi.org/10.1088/1361-6501/ac3549.
Chicago author-date (all authors)
Ando, M., M. Birosz, G. S. Gehlen, P. D. Neis, N. F. Ferreira, and Jacob Sukumaran. 2022. “Surface Plastic Flow of Three-Dimensional Printed Polylactic Acid in the Tribological Study of Surface Patterned Polymer.” MEASUREMENT SCIENCE AND TECHNOLOGY 33 (2). doi:10.1088/1361-6501/ac3549.
Vancouver
1.
Ando M, Birosz M, Gehlen GS, Neis PD, Ferreira NF, Sukumaran J. Surface plastic flow of three-dimensional printed polylactic acid in the tribological study of surface patterned polymer. MEASUREMENT SCIENCE AND TECHNOLOGY. 2022;33(2).
IEEE
[1]
M. Ando, M. Birosz, G. S. Gehlen, P. D. Neis, N. F. Ferreira, and J. Sukumaran, “Surface plastic flow of three-dimensional printed polylactic acid in the tribological study of surface patterned polymer,” MEASUREMENT SCIENCE AND TECHNOLOGY, vol. 33, no. 2, 2022.
@article{8763179,
  abstract     = {{The potential of three-dimensional (3D) printing in polymer tribology is poorly explored. Material alignment and composition play vital roles in altering the friction and wear characteristics of 3D printed materials. In the current study, 3D patterns made by fused deposition modelling are used to print advanced tribo-composites. Two different surface patterns (line and circular) are provided through 3D printing using white and silver polylactic acid (PLA). The deformation and distribution of white and silver PLA over the samples surface are observed after a wear test. Results showed that the coefficient of friction is not influenced by changes in the surface pattern. However, the wear rate increased for samples with line patterns on the contact surface, since plastic flow was more significant in this case. Moreover, the filling factor exhibited an influence on increasing the plastic flow of the contact surface for samples with a line pattern.}},
  articleno    = {{024001}},
  author       = {{Ando, M. and Birosz, M. and Gehlen, G. S. and Neis, P. D. and Ferreira, N. F. and Sukumaran, Jacob}},
  issn         = {{0957-0233}},
  journal      = {{MEASUREMENT SCIENCE AND TECHNOLOGY}},
  keywords     = {{PROCESS PARAMETERS,TRANSFER FILM,MECHANICAL-PROPERTIES,PERFORMANCE,PARTS,3D printing,surface pattern,polymer tribology}},
  language     = {{eng}},
  number       = {{2}},
  pages        = {{11}},
  title        = {{Surface plastic flow of three-dimensional printed polylactic acid in the tribological study of surface patterned polymer}},
  url          = {{http://doi.org/10.1088/1361-6501/ac3549}},
  volume       = {{33}},
  year         = {{2022}},
}
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