High-consistency silicone rubber with reduced Young's modulus. An industrial option to dielectric silicone rubber

Joaquim Mª Rius-Bartra, Norma Ferrer-Serrano, Núria Agulló, Salvador Borrós

Research output: Indexed journal article Articlepeer-review

7 Citations (Scopus)

Abstract

Flexible capacitive sensors based on silicone rubber have gained importance in both academic and industrial fields due to their advantages, including low power consumption and high stability to temperature, and humidity. However, pristine silicone rubber has a low dielectric constant ((Figure presented.)), requiring the use of dielectric additives such as TiO 2, BaTiO 3, or Sb 2O 3-doped SnO 2 rutile-modified particles (ATO) to enhance electrical properties, but they also increase Young's modulus (E). To overcome this problem, liquid silicone rubbers (LSR) are commonly used in academic research due to their low E, but they often compromise mechanical integrity. In contrast, high-consistency silicone rubbers (HCR), the industry commodity, maintain mechanical integrity even at high filler loadings but are limited in their use in dielectrics due to high E values. This paper explores the potential of vinyl-terminated HCR for developing dielectric composites with high electromechanical response, with an improved (Figure presented.) and a reduced E while retaining mechanical and processability properties. The resulting dielectric HCR formulations exhibit optimal properties for developing flexible capacitive sensors using well-established industrial products and processes.

Original languageEnglish
Article numbere54405
Number of pages10
JournalJournal of Applied Polymer Science
Volume140
Issue number37
DOIs
Publication statusPublished - 5 Oct 2023

Keywords

  • capacitive sensors
  • dielectric constant
  • electroactive polymers
  • flexible sensors
  • high-consistency silicone rubbers
  • liquid silicone rubbers
  • transductors

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