Modification and application of sports rehabilitation materials based on conjugated materials

Author:

Li Han,Zhai Xiaoyang,Yang Zhitao,Tang Xuan,Wang Jingzhen,Qiu Xuan

Abstract

Existing elastic band materials for sports rehabilitation equipment have some deficiencies in strength, flexibility and durability, and need to be further improved. Therefore, the aim of this paper is to modify elastic bands using a conjugated material, carbon nanotubes, to improve the strength, flexibility and durability of elastic bands. In this paper, conjugated carbon nanotubes were prepared, and their elastic bands were strengthened and toughened by solvent, dispersant and functionalizer respectively under tensile testing machine and scanning electron microscope. Then the application effect of elastic band modified by conjugated materials in exercise rehabilitation was analyzed experimentally. The experimental results show that the strength of the elastic bands modified with carbon nanotubes is in the optimal range for sports rehabilitation, and the elongation at break of the test elastic band toughness index was also higher than that before modification, all of which were more than 90%. The recovery time of the elastic band after modification was long; the elastic retention rate was high, and the deformation was not easy. The satisfaction rate of different grades of elastic bands after modification was particularly high, which was not less than 95%. The research and application of elastic band modification based on conjugated material carbon nanotubes is very important for training and treatment in sports rehabilitation, which can provide better support and stability.

Publisher

Frontiers Media SA

Subject

General Chemistry

Reference23 articles.

1. Functional polymer materials in environmental biosensors in the context of the internet of things;Abdullah;Acad. J. Environ. Biol.,2022

2. Effects of elastic band exercise on lower limb rehabilitation of elderly patients undergoing total knee arthroplasty;Chou;Rehabilitation Nurs. J.,2019

3. Electrochemical modification of carbon nanotube fibres;Dominguez-Alfaro;Nanoscale,2022

4. The effect of six-character jue combined with elastic band training on pulmonary rehabilitation of elderly patients with stable chronic obstructive pulmonary disease;Fan;Pract. Geriatr.,2023

5. Effects of walking training based on timing theory combined with elastic band resistance training on functional physical fitness and cardiopulmonary function in patients with coronary heart disease;Jiao;Clin. Res. Pract.,2023

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