International Journal of Social Sciences and Economic Management, 2021, 2(1); doi: 10.38007/IJSSEM.2021.020107.
Near East University, Turkey
As people pay more and more attention to human health, dance movement is also accepted by more people and plays an important role in modern life. Ballet shoes are the foundation of ballet dancers and also important equipment. Only by wearing non-slip dancing shoes can you actively demonstrate your dancing talent. Therefore, the research on the preparation of dancing shoes and anti-slip and antibacterial is based on the safety and health of dancers. The development of nanotechnology is accepted by the world. In this paper, a fast sol-gel method is used to organize nanomaterials to improve the antibacterial durability of dancing shoes. Through the antibacterial performance test, the best preparation process of antibacterial fabrics was explored. Through the experimental exploration of this article, compared with ordinary materials, the average burst strength of nano-materials is reduced by 8.86%. Therefore, nanomaterials still have a certain value in ballet shoes.
Nano Materials, Ballet Shoes, Anti-Slip and Antibacterial, Performance Research
Sinenm Alturjman. Nano-material Preparation Technology in Anti-skid and Anti-bacterial Ballet Shoes. International Journal of Social Sciences and Economic Management (2021), Vol. 2, Issue 1: 82-97. https://doi.org/10.38007/IJSSEM.2021.020107.
 Pi Yang, Yong Yuan, Zhao Zhigang. Preparation of Tungsten Disulfide Nanomaterials and Its Photothermal Antibacterial Effect. Shandong Chemical Industry, 2020, v.49; No.378(08):15-17+20 .
 Yang Yingying, Feng Shan, Ma Longyu, et al. Research progress of photothermal nanomaterials in the field of antibacterial. Journal of Henan University (Medical Edition) , 2021, 40(2), Pages 147-151.
 Liu Junli, Shao Jianzhen, Liu Hui, et al. Preparation and antibacterial properties of modified MMT/ZnO/GQDs nanocomposites. Journal of Shaanxi University of Science and Technology, 2019, 037(001): P.113-117.
 Zhang Jingtao, Wang Xueying, Liu Xing, et al. Antibacterial properties of TiO2 nanocomposites. Fine Chemicals, 2018, 035(009):1511-1517.
 Guan Renquan, Zhai Hongju, Sun Dewu, et al. Preparation of MoS2-based composite materials and their application research progress in the fields of catalysis, lubrication and electrochemistry. New Chemical Materials, 2018, 046(004):213-215.
 Cai Hai, Wang Xianhong, Yin Wenhua. Preparation and properties of polyethylene/aluminum nitride nanocomposites . Aging and Application of Synthetic Materials, 2019, 048(006): 35-38.
 Lv Jing. Research on the application and performance of new nanomaterials in sports equipment. Aging and Application of Synthetic Materials, 2020, 049(001):80-83.
 Xie Haisheng, Wu Rui, Liu Junyi, et al. Preparation method of new self-supporting electrode based on carbon fiber. Chinese Journal of Composites, 2021, 38(10):3463-3471.
 Wang Yuezhang, Xu Bing, Yang Le. Preparation and application of colored non-slip thin layer . Highway Traffic Science and Technology: Applied Technology Edition, 2019, 000(009): P.17-20.
 Shao Fangcheng. Research and application progress of carbon nanofibers in cement-based materials. Architectural Engineering Technology and Design, 2017, 000(010):5254-5254.
Sang Yafei, He Yuxin, Zhang Li, et al. Progress in the preparation and application of magnetic nanomaterials. New Chemical Materials, 2017(01):1-3.
 Hao Wei, Zhao Xiaofeng, Ni Na, et al. Preparation, properties and application of polymer precursor silicon-based ceramics . Journal of Zhongyuan Institute of Technology, 2019, 030(001):1- 20.
 Tian Fengshou, Liu Yanli. Preparation of nano-Au modified Cd_2SnO_4 composite and its gas-sensitivity research. Chemical Sensors, 2019, v.39; No.154(02):47-52.
 Miao Jing, Guo Ruifeng, Liu Zhihong. Preparation of BaO•4B_2O_3•5H_2O Nanomaterials and Evaluation of Thermal Decomposition Kinetic Method for the Flame Retardant Properties of Polypropylene (English). Acta Phys Chim Sin, 2020, v.36 (06):47-52.
 Li Ronghui, Jia Yizheng, Hu Nannan. Preparation of three-dimensional hierarchical flower-like activated alumina nanomaterials and their arsenic removal performance. Journal of Inorganic Materials, 2019, 34(05): 96-102. https://doi.org/10.15541/jim20180317
 Zhang Hongliang, Wang Henan, Feng Changjie, et al. Research on the application of heuristic teaching in the course of mechanical properties of materials. Education Modernization, 2019, v.6(77):194-196.
 Yu Lichen, Ji Xin, Gao Lei, et al. Research progress of SiO_2 thin film preparation methods, properties and applications. Journal of Shanghai University of Engineering Science, 2019, v.33(03):27-30+89.
 Jiang Tao. Research and application of laser cladding technology in experimental teaching of materials science and engineering. Human Resource Management, 2018, 000(011):332-333.
 Zhang Bo, Yang Hong. Research on the application of antibacterial materials in the natural adjustment of air humidity . Architectural Engineering Technology and Design, 2017, 000(006): 2256-2256.
 Sun Xiaoli, Zhang Xiaoyun. Experimental design and practice of preparing polymer nanomaterials. Experimental Technology and Management, 2017, 034(012):58-60,65.