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Analysis of welding and sealing joining methods of single-polymer composite materials in a hot air stream

Ewelina Kostecka

Zeszyty Naukowe Akademii Morskiej w Szczecinie

2020

nr 64 (136)

45--51

This article presents joining methods (welding and sealing) of single-polymer composite materials in a hot air stream. The research material was created using the film-stacking method, which involves pressing successive fractions of polyethylene terephthalate-modified with glycol (PET-G) at defined technological conditions, such as pressure, temperature, and time. Joining method analysis was carried out based on the tensile test results. Analysis of the obtained results showed that the properties of the overlapped weld joint were the best because they were closest to the original materials. In contrast, PET-G welded joint properties were the worst because the PET-G welded joint does not contain fibers, which enhanced the weld; therefore, the fastest breakage of the material was observed at the welding location. For the overlapped weld, the weld itself is more resistant because the joint surface is influenced by friction forces between joined materials.

Influence of water absorption on chosen strength properties of single-polymer polyester composites

Gawdzińska K., Gądek-Moszczak A., Bryll K., Irska I., Paszkiewicz S.

Polimery

2018

T. 63, nr 4

264--269

Investigations of the selected properties of single-polymer polyester composites (SPC) in dry condition and immersed in water are presented. Materials were tested for possible applications in shipbuilding. Water absorption till saturation limit was examined, at temperatures of 3, 23 and 100 °C, through the determination of water diffusion coefficient. Some material properties were determined through impact resistance tests of materials varyingin fiber content [0 (A), 5 (B), 10 (C), 15 (D), 20 wt % (E)]. The highest impact resistance (6 J/cm2) was found for the composite with more than 15 % of reinforcement in dry condition.

Zbadano wybrane właściwości mechaniczne jednoskładnikowych kompozytów poliestrowych o zawartości masowej włókien 0 % (A), 5 % (B), 10 % (C), 15 % (D), 20 % (E), w stanie suchym i po zanurzeniu w wodzie, w celu określenia możliwych zastosowań takich materiałów w przemyśle stoczniowym. Współczynnik dyfuzji wody wytworzonych kompozytów oznaczano na podstawie jej absorpcji do stanu nasycenia, w temperaturze 3, 23 i 100 °C. Przeprowadzono testy udarności Charpy’ego próbek kompozytów o różnym udziale włókien. Stwierdzono, że najlepszą udarność (6 J/cm2) wykazują kompozyty w stanie suchym z zawartością włókien powyżej 15 % mas.