Simultaneously improved dielectric and mechanical properties of silicone elastomer by designing a dual crosslinking network

The application of silicone rubber (SiR) dielectric elastomer (DE) as an actuator is limited by its low properties in terms of dielectric constant, mechanical strength and actuated strain in a low electric field. This work aimed at simultaneously improving the dielectric and mechanical properties of...

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Bibliographic Details
Published in:Polymer chemistry 2019-01, Vol.1 (5), p.633-645
Main Authors: Sun, Haibin, Liu, Xueying, Yu, Bing, Feng, Zhanbin, Ning, Nanying, Hu, Guo-Hua, Tian, Ming, Zhang, Liqun
Format: Article
Language:English
Subjects:
Actuators
Bonding strength
Chemical reactions
Chemical synthesis
Crosslinking
Dielectric properties
Dielectric strength
Elastomers
Electric fields
Engineering Sciences
Hydrogen bonds
Mechanical properties
Organic chemistry
Permittivity
Photochemical reactions
Polydimethylsiloxane
Polymer chemistry
Silicone resins
Silicone rubber
Strain
Vulcanization
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Summary:The application of silicone rubber (SiR) dielectric elastomer (DE) as an actuator is limited by its low properties in terms of dielectric constant, mechanical strength and actuated strain in a low electric field. This work aimed at simultaneously improving the dielectric and mechanical properties of SiR by designing a dual-crosslinking network (DN) of SiR, denoted as SiR-DN. First, carboxyl modified PMVS (PMVS-COOH) was synthesized by using a photochemical thiol-ene click reaction. Then PMVS-COOH was blended with a commercial silanol terminated polydimethylsiloxane (PDMS-OH) followed by the crosslinking of PDMS-OH using an amino (NH 2 ) bearing crosslinking agent to form a PDMS-NH 2 crosslinked network, forming a PMVS-COOH and PDMS-NH 2 dual-crosslinking network. The as prepared DN structure includes the chemical crosslinked PDMS-NH 2 network and the network formed by hydrogen bonds between PMVS-COOH and PDMS-NH 2 . The PMVS-COOH can serve as a polar component to enhance the dielectric constant and the hydrogen bonds can serve as sacrificial bonds to strengthen SiR. Compared with reference SiR, the tensile strength, tensile toughness, dielectric constant and actuated strain at low electrical field (15 kV mm −1 ) of SiR-DN 1.5/1 (with the PMVS-COOH/PDMS-OH mass ratio of 1.5/1) were all largely improved. The reinforcing effect of SiR-DN is comparable with the most commonly used reinforcing methods of room temperature vulcanizing SiR by adding nanofillers. Meanwhile, the actuated strain at 15 kV mm −1 of SiR-DN 1.5/1 is much higher than that reported in most previous studies. A homogenous silicone dielectric elastomer with simultaneously improved dielectric and mechanical properties is synthesized by designing a dual crosslinking network.
ISSN:1759-9954
1759-9962
DOI:10.1039/c8py01763h