Effects of glass transition on the dielectric breakdown and electrical conduction in several biodegradable polymers

Makoto Matsushita; Yasumasa Maeno; Hiroki Kino; Shinjiro Fujita; Naoshi Hirai; Toshikatsu Tanaka; Yoshimichi Ohki; Yoshiro Tajitsu; Masanori Kohtoh; Shigemitsu Okabe

doi:10.1109/iseim.2005.193576

Effects of glass transition on the dielectric breakdown and electrical conduction in several biodegradable polymers

Makoto Matsushita^*, Yasumasa Maeno, Hiroki Kino, Shinjiro Fujita, Naoshi Hirai, Toshikatsu Tanaka, Yoshimichi Ohki, Yoshiro Tajitsu, Masanori Kohtoh, Shigemitsu Okabe

^*Corresponding author for this work

Kagami Memorial Research Institute for Materials Science and Technology

Research output: Contribution to conference › Paper › peer-review

2 Citations (Scopus)

Abstract

Results of the conductivity and breakdown strength measured for several biodegradable polymers are reported. At room temperature, poly-L-lactic acid (PLLA) and polyethylene terephthalate succinate (PETS) have relatively low conductivity values that are comparable to low density polyethylene (LDPE). However, when the fact that PLLA and PETS are in the glass state is taken into consideration, the conductivity values of PLLA and PETS should be considered to be relatively high. Moreover, PLLA and PETS show rapid increase in the conduction current around their glass transition temperatures. The other three biodegradable polymers that are in the rubber state at room temperature, namely ε-polycaprolactone butylene succinate (PCL-BS), polybutylene succinate (PBS), and polybutylene succinate adipate (PBSA), have much higher conductivities. Although the impulse breakdown strength is relatively similar in all the samples, PLLA and PETS have higher breakdown strengths in temperature regions around their glass transition temperatures. This apparently anomalous behavior is explainable by assuming that part of the energy supplied by the applied impulse voltage was consumed due to the glass transition. As for dc or ac breakdown strength at room temperature, PLLA and PETS show a relatively higher strength than PCL-BS and PBS.

Original language	English
Pages	413-416
Number of pages	4
DOIs	https://doi.org/10.1109/iseim.2005.193576
Publication status	Published - 2005
Event	2005 International Symposium on Electrical Insulating Materials, ISEIM 2005 - Kitakyushu, Japan Duration: 2005 Jun 5 → 2005 Jun 9

Conference

Conference	2005 International Symposium on Electrical Insulating Materials, ISEIM 2005
Country/Territory	Japan
City	Kitakyushu
Period	05/6/5 → 05/6/9

ASJC Scopus subject areas

Engineering(all)
Materials Science(all)

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10.1109/iseim.2005.193576

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Matsushita, M., Maeno, Y., Kino, H., Fujita, S., Hirai, N., Tanaka, T., Ohki, Y., Tajitsu, Y., Kohtoh, M., & Okabe, S. (2005). Effects of glass transition on the dielectric breakdown and electrical conduction in several biodegradable polymers. 413-416. Paper presented at 2005 International Symposium on Electrical Insulating Materials, ISEIM 2005, Kitakyushu, Japan. https://doi.org/10.1109/iseim.2005.193576

Effects of glass transition on the dielectric breakdown and electrical conduction in several biodegradable polymers. / Matsushita, Makoto; Maeno, Yasumasa; Kino, Hiroki et al.
2005. 413-416 Paper presented at 2005 International Symposium on Electrical Insulating Materials, ISEIM 2005, Kitakyushu, Japan.

Research output: Contribution to conference › Paper › peer-review

Matsushita, M, Maeno, Y, Kino, H, Fujita, S, Hirai, N, Tanaka, T, Ohki, Y, Tajitsu, Y, Kohtoh, M & Okabe, S 2005, 'Effects of glass transition on the dielectric breakdown and electrical conduction in several biodegradable polymers', Paper presented at 2005 International Symposium on Electrical Insulating Materials, ISEIM 2005, Kitakyushu, Japan, 05/6/5 - 05/6/9 pp. 413-416. https://doi.org/10.1109/iseim.2005.193576

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abstract = "Results of the conductivity and breakdown strength measured for several biodegradable polymers are reported. At room temperature, poly-L-lactic acid (PLLA) and polyethylene terephthalate succinate (PETS) have relatively low conductivity values that are comparable to low density polyethylene (LDPE). However, when the fact that PLLA and PETS are in the glass state is taken into consideration, the conductivity values of PLLA and PETS should be considered to be relatively high. Moreover, PLLA and PETS show rapid increase in the conduction current around their glass transition temperatures. The other three biodegradable polymers that are in the rubber state at room temperature, namely ε-polycaprolactone butylene succinate (PCL-BS), polybutylene succinate (PBS), and polybutylene succinate adipate (PBSA), have much higher conductivities. Although the impulse breakdown strength is relatively similar in all the samples, PLLA and PETS have higher breakdown strengths in temperature regions around their glass transition temperatures. This apparently anomalous behavior is explainable by assuming that part of the energy supplied by the applied impulse voltage was consumed due to the glass transition. As for dc or ac breakdown strength at room temperature, PLLA and PETS show a relatively higher strength than PCL-BS and PBS.",

author = "Makoto Matsushita and Yasumasa Maeno and Hiroki Kino and Shinjiro Fujita and Naoshi Hirai and Toshikatsu Tanaka and Yoshimichi Ohki and Yoshiro Tajitsu and Masanori Kohtoh and Shigemitsu Okabe",

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AU - Matsushita, Makoto

AU - Maeno, Yasumasa

AU - Kino, Hiroki

AU - Fujita, Shinjiro

AU - Hirai, Naoshi

AU - Tanaka, Toshikatsu

AU - Ohki, Yoshimichi

AU - Tajitsu, Yoshiro

AU - Kohtoh, Masanori

AU - Okabe, Shigemitsu

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N2 - Results of the conductivity and breakdown strength measured for several biodegradable polymers are reported. At room temperature, poly-L-lactic acid (PLLA) and polyethylene terephthalate succinate (PETS) have relatively low conductivity values that are comparable to low density polyethylene (LDPE). However, when the fact that PLLA and PETS are in the glass state is taken into consideration, the conductivity values of PLLA and PETS should be considered to be relatively high. Moreover, PLLA and PETS show rapid increase in the conduction current around their glass transition temperatures. The other three biodegradable polymers that are in the rubber state at room temperature, namely ε-polycaprolactone butylene succinate (PCL-BS), polybutylene succinate (PBS), and polybutylene succinate adipate (PBSA), have much higher conductivities. Although the impulse breakdown strength is relatively similar in all the samples, PLLA and PETS have higher breakdown strengths in temperature regions around their glass transition temperatures. This apparently anomalous behavior is explainable by assuming that part of the energy supplied by the applied impulse voltage was consumed due to the glass transition. As for dc or ac breakdown strength at room temperature, PLLA and PETS show a relatively higher strength than PCL-BS and PBS.

AB - Results of the conductivity and breakdown strength measured for several biodegradable polymers are reported. At room temperature, poly-L-lactic acid (PLLA) and polyethylene terephthalate succinate (PETS) have relatively low conductivity values that are comparable to low density polyethylene (LDPE). However, when the fact that PLLA and PETS are in the glass state is taken into consideration, the conductivity values of PLLA and PETS should be considered to be relatively high. Moreover, PLLA and PETS show rapid increase in the conduction current around their glass transition temperatures. The other three biodegradable polymers that are in the rubber state at room temperature, namely ε-polycaprolactone butylene succinate (PCL-BS), polybutylene succinate (PBS), and polybutylene succinate adipate (PBSA), have much higher conductivities. Although the impulse breakdown strength is relatively similar in all the samples, PLLA and PETS have higher breakdown strengths in temperature regions around their glass transition temperatures. This apparently anomalous behavior is explainable by assuming that part of the energy supplied by the applied impulse voltage was consumed due to the glass transition. As for dc or ac breakdown strength at room temperature, PLLA and PETS show a relatively higher strength than PCL-BS and PBS.

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Effects of glass transition on the dielectric breakdown and electrical conduction in several biodegradable polymers

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