Mechanical properties and biodegradability of flax fiber-reinforced composite of polylactide and polycaprolactone

P. Rytlewski; M. Stepczyńska; K. Moraczewski; R. Malinowski; B. Jagodziński; M. Żenkiewicz

doi:10.14314/polimery.2018.9.4

Published : 2021-01-13

Vol. 63 No. 9 (2018)

Mechanical properties and biodegradability of flax fiber-reinforced composite of polylactide and polycaprolactone

P. Rytlewski M. Stepczyńska K. Moraczewski R. Malinowski B. Jagodziński M. Żenkiewicz

DOI: https://doi.org/10.14314/polimery.2018.9.4

Abstract

The aim of this work was to produce a composite based on the blend of polylactide and polycaprolactone and reinforced with flax fiber, intended for processing by injection molding, with improved mechanical and biodegradation properties as compared to neat polylactide (PLA) and polycaprolactone (PCL). The material was prepared by mixing PLA, PCL and flax fibers (about 5 mm long), extrusion and granulation with subsequent injection molding to obtain test samples. The composites differed in the content of PCL (0, 5, 10, 15 and 30 wt %) whereas the content of flax fibers was kept constant (20 wt %). The samples were characterized by means of scanning electron microscopy (SEM), tensile and impact strength measurements, differential scanning calorimetry (DSC) and dynamic mechanical analysis (DMA). Biodegradation studies were carried out using proteinase K at laboratory conditions. It was found that a reduction of fiber lengths took place during the extrusion process and that addition of flax fibers to PLA/PCL blend resulted in an increase in elastic modulus and biodegradation rate. The composite impact strength was significantly improved at 30 wt % PCL fraction.

Keywords

polylactide ; polycaprolactone ; flax fibers ; mechanical properties ; biodegradation polilaktyd ; polikaprolakton ; włókna lniane ; właściwości mechaniczne ; biodegradacja

Details

References

Statistics

Authors

Download files

PDF

Zasady cytowania

Rytlewski, P., Stepczyńska, M., Moraczewski, K., Malinowski, R., Jagodziński, B., & Żenkiewicz, M. (2021). Mechanical properties and biodegradability of flax fiber-reinforced composite of polylactide and polycaprolactone. Polimery, 63(9), 603-610. https://doi.org/10.14314/polimery.2018.9.4

References

Rasal R.M., Janorkar A.V., Hirt D.E.: Progress in Polymer Science 2010, 35, 338.
Crossref

[2] “Poly(lactide acid): Synthesis, Structure, Properties and Applications” (Eds. Auras R.A., Lim L-T., Selke S.E.M., Tsuji H.), Wiley, Hoboken 2010. ISBN: 978-0-470-29366-9

[3] Ruellan A., Guinault A., Sollogoub C. et al.: Journal of Applied Polymer Science 2015, 132, 42 476.
Crossref

[4] Anderson K., Lim S., Hillmyer M.: Journal of Applied Polymer Science 2003, 89, 3757.
Crossref

[5] Wu D., Zhang Y., Zhang M., Zhou W.: European Polymer Journal 2008, 44, 2171.
Crossref

[6] Semba T., Kitagawa K., Ishiaku U.S., Hamada H.: Journal of Applied Polymer Science 2006, 101, 1816.
Crossref

[7] Woodruff M.A., Hutmacher D.W.: Progress in Polymer Science 2010, 35, 1217.
Crossref

[8] Bednarek M., Cichorek M.: Polimery 2014, 59, 598.
Crossref

[9] Lopez-Rodrıguez N., Lopez-Arraiza A., Meaurio E., Sarasua J.R.: Polymer Engineering and Science 2006, 46, 1299.
Crossref

[10] Geller S., Weissenborn O., Gude M., Czulak A.: Polimery 2016, 61, 125.
Crossref

[11] Kodal M., Topuk Z.D., Ozkoc G.: Journal of Applied Polymer Science 2015, 132, 42 564.
Crossref

[12] Berthet M., Angellier-Coussy H., Guillard V., Gontard N.: Journal of Applied Polymer Science 2016, 133, 42 528.
Crossref

[13] Rytlewski P., Moraczewski K., Malinowski R., Żenkiewicz M.: Composite Interfaces 2014, 21, 671.
Crossref

[14] Pickering K., Sawpan M.A., Jayaraman J., Fernyhough A.: Composites Part A 2011, 42, 1148.
Crossref

[15] Mathew A.P., Oksman K., Sain M.: Journal of Applied Polymer Science 2005, 97, 2014.
Crossref

[16] Averous L., Fringant C., Moro L.: Polymer 2001, 42, 6565.
Crossref

[17] Ying-Chen Z., Hong-Yan W., Yi-Ping Q.: Bioresource Technology 2010, 101, 7944.
Crossref

[18] Mat Taib R., Hassan H.M., Mohd Ishak Z.A.: Polymer--Plastics Technology and Engineering 2014, 53, 199
Crossref

[19] Goriparthi B.K., Suman K.N.S., Nalluri M.R.: Polymer Composites 2012, 33, 237.
Crossref

[20] Żenkiewicz M., Richert A., Malinowski R., Moraczewski K.: Polymer Testing 2013, 32, 209.
Crossref

[21] Graupner N., Albrecht K., Ziegmann G. et al.: Express Polymer Letters 2016, 10, 647.
Crossref

[22] Pilla S., Gong S., O’Neill E. et al.: Polymer Engineering and Science 2008, 48, 578.
Crossref

[23] Suryanegara L., Nakagaito A.N., Yano H.: Composites Science and Technology 2009, 69, 1187.
Crossref

[24] Mucha M., Tylman M., Mucha J.: Polimery 2015, 60, 686.
Crossref

Google Scholar

Altmetric indicators

Citing articles via

CITEDBY SCOPUS

Statistics

Total abstract views : 409

PDF Downloads : 207

P. Rytlewski prytlewski@ukw.edu.pl

Affiliation
Kazimierz Wielki University, Chodkiewicza 30, Bydgoszcz, Poland

M. Stepczyńska

Affiliation
Kazimierz Wielki University, Chodkiewicza 30, Bydgoszcz, Poland

K. Moraczewski

Affiliation
Kazimierz Wielki University, Chodkiewicza 30, Bydgoszcz, Poland

R. Malinowski

Affiliation
Institute for Engineering of Polymer Materials and Dyes, M. Skłodowskiej-Curie 55, Toruń, Poland

B. Jagodziński

Affiliation
Kazimierz Wielki University, Chodkiewicza 30, Bydgoszcz, Poland

M. Żenkiewicz

Affiliation
Kazimierz Wielki University, Chodkiewicza 30, Bydgoszcz, Poland