Dielectric Properties of Polybutylene Succinate and Polybutylene Succinate Adipate

Ishikawa, Hiromasa; Omori, S.; Ohki, Yoshimichi

doi:10.1109/icsd.2007.4290893

Cited by 9 publications

(2 citation statements)

References 5 publications

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“…PBSA is a biodegradable thermoplastic copolyester composed of butylene succinate and butylene adipate repeating units randomly distributed along the chain (21)(22). It has good melt-processability and chemical resistance (23)(24)(25)(26)(27)(28)(29)(30)(31). Some researchers have studied these materials for applications like packaging and have studied specially synthesized copolymers or commercially available samples (21-22, 29, 32-33).…”

Section: Introductionmentioning

confidence: 99%

Thermo-rheological effects on successful 3D printing of biodegradable polyesters

Candal

Calafel

Aranburu

et al. 2020

Additive Manufacturing

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Biodegradable polybutylene succinate (PBS) and poly (butylene succinate-ranadipate) (PBSA) were characterized to find the thermo-rheological bases for 3D printing by Fused Filament Fabrication (FFF). In dynamic viscoelastic measurements, the samples fulfilled time-temperature superposition and Cox Merz rule. The viscosity results were linked to the excellent filaments obtained and the observed good flow in the printer nozzle.Using specific tearing experiments, outstanding welding of the printed layers was obtained.Results were discussed considering the values of the entanglements density obtained by SAOS measurements. The main difference between both polymers was observed in the final production of 3D printed parts because the high crystallinity of PBS produced significant warpage, which prevented its use for practical purposes. On the contrary, the less crystalline PBSA random copolymer showed excellent performance during FFF. Thus, dimensionally stable and ductile printed objects were obtained, opening new processing routes for semi-crystalline biodegradable polyesters.

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Section: Introductionmentioning

confidence: 99%

Thermo-rheological effects on successful 3D printing of biodegradable polyesters

Candal

Calafel

Aranburu

et al. 2020

Additive Manufacturing

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“…Of the total value of 29.4, only 1.4 is related to χ c , and the remaining 28.0 has no relation with χ c . It is reasonable to assume that ions rather than electrons play a major role in electrical conduction in PLLA, as is often the case in other biodegradable polymers [10]. It seems that amorphous regions exert a dominant influence on electrical conduction, since the amorphous regions have a large free volume where ionic transport is easy and since molecular motions that assist the hopping of ions are also active in the amorphous regions.…”

Section: Relation Between Conduction Current and Crystallinitymentioning

confidence: 98%

Effects of crystallinity on dielectric properties of poly(L‐lactide)

Hikosaka

Ishikawa

Ohki

2011

Elect Comm in Japan

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SUMMARYPoly(L-lactide) is attracting much attention as a biodegradable polymer. In this paper, effects of crystallinity on dielectric properties of PLLA are discussed. At 80 $C, which is above the glass transition temperature (= about 60°C ), the conductivity increases with a decrease in crystallinity. A thermally stimulated polarization current (TSPC) peak, which seems to be due to segmental-mode relaxation, appears in all the samples at temperatures around 65 to 70°C, and it becomes smaller as the crystallinity increases. All the samples show two thermally stimulated depolarization current (TSDC) peaks at around 65 °C and around 90 to 100°C. The lower-temperature peak seems to be due to the segmental-mode relaxation, and the other due to the normal-mode relaxation. Moreover, all the samples show a drastic increase in the real part of the complex permittivity (ε r g ) and a peak in its imaginary part (ε r .) at frequencies from 10 -1 to 10 4 Hz, depending on the measurement temperature. The crystallinity dependencies of the two parts are similar to those of the TSPC and TSDC peaks at around 65 to 70°C. Therefore, the increase in ε r g and the peak in ε r gg are ascribable to the segmental-mode relaxation.

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Aiming at a more rigorous understanding in electrical insulating materials research

Ohki

2007

2007 Annual Report - Conference on Electrical Insulation and Dielectric Phenomena

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Dielectric Properties of Polybutylene Succinate and Polybutylene Succinate Adipate

Cited by 9 publications

References 5 publications

Thermo-rheological effects on successful 3D printing of biodegradable polyesters

Thermo-rheological effects on successful 3D printing of biodegradable polyesters

Effects of crystallinity on dielectric properties of poly(L‐lactide)

Aiming at a more rigorous understanding in electrical insulating materials research

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