THERMAL SCIENCE

International Scientific Journal

Adam Gnatowski

,

Agnieszka Kijo-Kleczkowska

,

Henryk Otwinowski

,

Piotr Sikora

THE RESEARCH OF THE THERMAL AND MECHANICAL PROPERTIES OF MATERIALS PRODUCED BY 3D PRINTING METHOD

ABSTRACT
A comparative analysis of thermal properties of semi-crystalline and amorphous polymeric materials was carried out. Samples were produced using 3D printing technology on the SIGNAL-ATMAT printer. The following polymeric materials were used to make the samples: thermoplastic polyurethane elastomer, acryloni-trile-butadiene-styrene copolymer, Laywood, ethylene terephthalate, poly (lactic acid). The materials were tested for their thermal and mechanical properties. The research included the analysis of thermal properties by differential scanning calorimetry of manufactured materials. The tensile strength also was determined.
KEYWORDS
thermal properties, mechanical properties, polymer materials, 3D printing
PAPER SUBMITTED: 2019-01-15
PAPER REVISED: 2019-02-28
PAPER ACCEPTED: 2019-03-11
PUBLISHED ONLINE: 2019-09-22
DOI REFERENCE: https://doi.org/10.2298/TSCI19S4211G
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2019, VOLUME 23, ISSUE Supplement 4, PAGES [S1211 - S1216]
REFERENCES
  1. ***, web.mit.edu/tdp/www/whatis3dp.html
  2. ***, ijpaliga.pl/rodzaje-druku
  3. Sieminski, P., Budzik, G., Incremental Techniques. 3D Printing. 3D Printers, WNT, Warsaw, 2015
  4. Barnatt, Ch., 3D Printing, 2nd ed., Createspace, Scatts Valley, Cal., USA, 2014
  5. ***, www.3ders.org/3d-printing/3d-printing-history.html
  6. Lipson, H., Fabricated, The New World of 3D Printing. John Willy and Sons, Indianapolis, Ind., USA, 2013
  7. Kosik, M., et al, Reduction of Injection Moulded Plastic Part Warpage Using Advanced Gas Assisted Injection Moulding, Materials Science Forum, 862 (2016), Aug., pp. 200-209
  8. Wootthikanokkhan, J., et al., Crystalization and Thermomechanical Properties of PLA Composities: Effects of Additive Types and Heat Threatment, Jour. of Applied Polymer Science, 129 (2013), 1, pp. 215-223
  9. Tran, J. T., The Law and 3D Printing, John Marshall Journal of Information Technology and Privacy Law, 31 (2015), 4, pp. 505-20
  10. Stephens, P. A., et al., Ultrafine Particle Emissions from Desktop 3D Printers, Atmospheric Environ-ment, 79 (2013), Nov., pp. 334-339
  11. Kaziunas France, A., Make: 3D Printing, The Essential Guide to 3D Printers, Maker Media, San Fran-cisco, Cal., USA, 2013
  12. Kijo-Kleczkowska, A., et al., Analysis of Sewage Sludge TG/DSC Regarding to Hard Coal and Energet-ic Willow, Archives of Waste Management and Environmental Protection, 17 (2015), 4, pp. 39-50
  13. Kijo-Kleczkowska, A., et al., Thermal Analysis of Solid Fuels in an Inert Atmosphere, Arch. Min. Sci. 62 (2017), 4, pp. 731-751
  14. Małecka, B., Thermal analysis and its application, SAT, 2010
PDF VERSION [DOWNLOAD]
The research of the thermal and mechanical properties of materials produced by 3D printing method

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence