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Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)

Polyurethane dielectric elastomer (PUDE) is considered a potential underwater flexible actuator material due to its excellent designability and environmental tolerance at the molecular level. Currently, the application of the polyurethane elastomer as an actuating material is constrained by such pro...

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Autores principales: Lu, Gang, Shuai, Changgeng, Liu, Yinsong, Yang, Xue, Hu, Xiaoyang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9028771/
https://www.ncbi.nlm.nih.gov/pubmed/35448334
http://dx.doi.org/10.3390/membranes12040364
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author Lu, Gang
Shuai, Changgeng
Liu, Yinsong
Yang, Xue
Hu, Xiaoyang
author_facet Lu, Gang
Shuai, Changgeng
Liu, Yinsong
Yang, Xue
Hu, Xiaoyang
author_sort Lu, Gang
collection PubMed
description Polyurethane dielectric elastomer (PUDE) is considered a potential underwater flexible actuator material due to its excellent designability and environmental tolerance at the molecular level. Currently, the application of the polyurethane elastomer as an actuating material is constrained by such problems as the conflict between various properties such as dielectric properties and modulus and the low level of dielectric sensitivity. This is a common challenge facing polyurethane dielectric research related to the uneven distribution of dielectric fillers in the matrix. Besides, another challenge for the academic circles is the easy agglomeration of micro and nanofillers. Given the above-mentioned background of the application and technical problems, the coaxial electrospinning technology is proposed in this paper. The polyurethane fiber network is constructed with the preferred hydrolysis resistant polyether-Diphenylmethane diisocyanate (MDI) thermoplastic polyurethane elastomer as the matrix material. Dispersed by ultrasound, the micro nano dielectric filler is integrated into polyurethane fiber through the coaxial dual-channel design. Additionally, directional constraint molding is conducted to improve the agglomeration of small-scale particles induced by the loss of mechanical energy in traditional blending. After characterization, the distribution of BaTiO(3) particles in the fiber bundle is relatively uniform. Compared to the polyurethane dielectric composites prepared by traditional blending (BaTiO(3)-Dielectric Elastomer, BaTiO(3)-DE), the dielectric sensitivity factor of the polyurethane composite fiber membrane (BaTiO(3)-Dielectric Elastomer Membrane, BaTiO(3)-DEM) is enhanced by over 25%; the electrostrictive strain of BaTiO(3)-DEM is boosted by least 10%.
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spelling pubmed-90287712022-04-23 Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3) Lu, Gang Shuai, Changgeng Liu, Yinsong Yang, Xue Hu, Xiaoyang Membranes (Basel) Article Polyurethane dielectric elastomer (PUDE) is considered a potential underwater flexible actuator material due to its excellent designability and environmental tolerance at the molecular level. Currently, the application of the polyurethane elastomer as an actuating material is constrained by such problems as the conflict between various properties such as dielectric properties and modulus and the low level of dielectric sensitivity. This is a common challenge facing polyurethane dielectric research related to the uneven distribution of dielectric fillers in the matrix. Besides, another challenge for the academic circles is the easy agglomeration of micro and nanofillers. Given the above-mentioned background of the application and technical problems, the coaxial electrospinning technology is proposed in this paper. The polyurethane fiber network is constructed with the preferred hydrolysis resistant polyether-Diphenylmethane diisocyanate (MDI) thermoplastic polyurethane elastomer as the matrix material. Dispersed by ultrasound, the micro nano dielectric filler is integrated into polyurethane fiber through the coaxial dual-channel design. Additionally, directional constraint molding is conducted to improve the agglomeration of small-scale particles induced by the loss of mechanical energy in traditional blending. After characterization, the distribution of BaTiO(3) particles in the fiber bundle is relatively uniform. Compared to the polyurethane dielectric composites prepared by traditional blending (BaTiO(3)-Dielectric Elastomer, BaTiO(3)-DE), the dielectric sensitivity factor of the polyurethane composite fiber membrane (BaTiO(3)-Dielectric Elastomer Membrane, BaTiO(3)-DEM) is enhanced by over 25%; the electrostrictive strain of BaTiO(3)-DEM is boosted by least 10%. MDPI 2022-03-26 /pmc/articles/PMC9028771/ /pubmed/35448334 http://dx.doi.org/10.3390/membranes12040364 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Lu, Gang
Shuai, Changgeng
Liu, Yinsong
Yang, Xue
Hu, Xiaoyang
Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)
title Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)
title_full Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)
title_fullStr Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)
title_full_unstemmed Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)
title_short Preparation and Dielectric Sensitivity of Polyurethane Composite Fiber Membrane Filled with BaTiO(3)
title_sort preparation and dielectric sensitivity of polyurethane composite fiber membrane filled with batio(3)
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9028771/
https://www.ncbi.nlm.nih.gov/pubmed/35448334
http://dx.doi.org/10.3390/membranes12040364
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