• 专利标题:   Ion exchange membrane type multiple stimulus source response flexible driver for flexible robot, comprises flexible composite film that is under illumination, applying voltage, and changing temperature or humidity change under bending deformation.
  • 专利号:   CN114633530-A
  • 发明人:   WU Y, HU Y, HUANG Z, WANG C, WANG D, CHANG L
  • 专利权人:   UNIV HEFEI TECHNOLOGY
  • 国际专利分类:   B32B027/08, B32B027/18, B32B027/32, B32B007/10, C08J005/18, C08K003/04, C08L027/18
  • 专利详细信息:   CN114633530-A 17 Jun 2022 B32B-027/32 202275 Chinese
  • 申请详细信息:   CN114633530-A CN10361255 07 Apr 2022
  • 优先权号:   CN10361255

▎ 摘  要

NOVELTY - An ion exchange membrane type multiple stimulus source response flexible driver comprises flexible composite film comprising modified ion exchange film layer and polymer film layer fixed with each other, doped with carbon nanofluoride, where the flexible composite membrane is under illumination, applying voltage, changing the temperature or humidity change under the condition of bending deformation. USE - Ion exchange membrane type multiple stimulus source response flexible driver used in flexible robot, sensor, artificial muscle and switch intelligent (claimed). ADVANTAGE - The ion exchange membrane type multiple stimulus source response flexible driver has simple preparation, low material cost and can respond to light electric multiple stimulation of heat humidity and chemical wide application range. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for the method for preparing ion exchange membrane type, which involves: 1. preparing modified ion exchange membrane layer, mixing the ion exchange membrane solution with the carbon organic solvent material, stirring and ultrasonic processing to make the carbon nano material, fully disperse uniformly, then dropping the obtained dispersion liquid on the substrate to dry to form modified ion exchange membrane; 2. assembling the flexible composite film, combining the modified ion exchange membrane with the polymer film to form a double-layer structure to form a flexible composite film of multi-stimulation source response.