Improve the effectiveness of the transfer and transformation of scientific and technological achievements, promote the industrial application of new technologies, promote the industrial chain and school-enterprise cooperation to integrate innovation… Textile Industry Innovation Platform Technology Exchange Conference andIndustrial Application TextilesScientific Research Achievements andTalentCultivation and Development Forum is committed to building a communication platform for the integration of technology, talents and industry.
On August 10, the “Textile Industry Innovation Platform Technology Exchange Meeting and Industrial Textiles Scientific Research Achievements and Talent Cultivation and Development Forum” was held in Wuxi. This event is hosted by the Science and Technology Development Department of the ChinaTextile Industry Federation and the China Industrial Textiles Industry Association. It is hosted by Jiangnan University, the National Advanced Printing and Dyeing Technology Innovation Center, and the Modern Dyeing and Finishing of the Textile Industry. Supported by the Key Technology Laboratory, the Key Laboratory of Inkjet Printing Technology in the Textile Industry, the Key Laboratory of Spinning Technology in the Textile Industry, and the Key Laboratory of Antibacterial Textiles in the Textile Industry.
Li Lingshen, Vice President of China Textile and Apparel Industry Federation, Gu Zhengbiao, Vice President of Jiangnan University, Gao Weidong, former Vice President, Li Guimei, President of China Industrial Textiles Industry Association, Zhang Chuanxiong, Deputy Director of the Science and Technology Development Department of China Textile Industry Federation and other industry leaders and Guests attended the meeting. About 180 people including experts and directors from key laboratories of the textile industry, textile industry technology innovation centers, industry-related universities and institutes, and representatives of key industrial textile enterprises attended the meeting. The morning meeting was chaired by Feng Li, director of the Technological Innovation Division of the Science and Technology Development Department of China Textile Federation. The afternoon meeting was chaired by Zhu Xiusen, vice president and secretary-general of the China Producers Association.
The meeting released the list of textile industry innovation platforms in 2021 and the list of approved textile industry innovation platforms (2018).
In 2021, 13 textile industry innovation platforms were recognized, including: 7 key laboratories in the textile industry including Jiaxing University’s “Key Laboratory of Biomimetic Functional Fibers in the Textile Industry”, Beijing Bangwei Gaoke Special Textile Co., Ltd.’s “Textile Industry Special Protection 6 textile industry technology innovation centers including “Technological Innovation Center”, 18 key laboratories including “Textile Industry Yarn and Functionalization Key Laboratory” of Wuhan Textile University, Anhui Huamao Group Co., Ltd. “Textile Industry Ring Spinning Technology” 7 technology innovation centers including “Innovation Center” passed the evaluation.
Gu Zhengbiao, Vice President of Jiangnan University, introduced the school and textile disciplines in his speech. He pointed out that in the context of the country’s continuous promotion of the development of strategic emerging industries and the establishment of a new dual-cycle development pattern, the industrial textiles industry has become a global textile industry. The key areas of scientific and technological innovation have ushered in new development opportunities and are also facing severe challenges. How to promote breakthroughs and innovations in key technologies in key textile fields and enhance new driving forces for green and low-carbon circular development is an important guide for promoting the transformation and upgrading of the industrial textiles industry and enhancing the core competitiveness of the industry. significance.
Li Lingshen, vice president of China Textile Federation, put forward four suggestions on the construction of industry science and technology platforms, the transformation of scientific and technological achievements, and the research and development and innovation of industrial textiles: first, consolidate the foundation of scientific and technological innovation capabilities and promote the construction of high-level scientific and technological innovation platforms; second, smooth The chain of transfer and transformation of scientific and technological achievements will be built to build a scientific and technological innovation system that prioritizes quality and efficiency; the third is to grasp the development trend of science and technology and realize the independent controllability of the industrial textile technology system; the fourth is to adhere to talents Lead development and accelerate the construction of a high-level scientific and technological innovation talent team. In addition, in the context of the current “dual carbon” development strategy, industry scientific and technological workers need to pay more attention to the research of low-carbon and green technology systems; for industry companies, they need to pay more attention to and develop ESG in the future to better achieve corporate development and environmental protection. collaborative development of conservation.
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Strengthen scientific and technological innovation capabilities,
Promote the construction of a high-level scientific and technological innovation platform
The innovation platform is an effective carrier for gathering innovation resources, bringing together innovative talents, carrying out technological innovation, and an effective way to enhance the core competitiveness of science and technology. Zhang Chuanxiong, deputy director of the Science and Technology Development Department of the China Textile and Apparel Federation, said that strict management will become a new requirement for the construction of an innovation platform in the textile industry, cross-border integration will become a new direction for the construction of an innovation platform, and collaborative interaction will become a new way for the main body of the innovation platform to participate. Digital Green empowerment will become a new way for innovation platforms to improve quality and efficiency.
Zhang Chuanxiong said that at present, the technological innovation of my country’s textile industry is still in a state of “three runners coexist” with mainly following. In the future, multi-functional development of textile consumer goods, cross-border integration and collaborative innovation research and development, high-end textile equipment development and digital transformation, green and low-carbon technology and product promotion and application will become the four major directions of technological innovation in the textile industry.
“Scientific research platform is an important part of subject evaluation, an important carrier for scientific and technological innovation and improvement of scientific research capabilities, and an important carrier for gathering and cultivating scientific and technological talents. Platform construction is crucial to the development of universities.” Jiangnan University Textile Fu Shaohai, dean and professor of the School of Science and Engineering, pointed out that universities can improve scientific research by establishing academic committees, relatively stable scientific research teams, relatively complete management and operation systems, setting up relevant topics, and regularly carrying out academic activities.Used in many fields such as aerospace and construction.
Huang Fenglin, deputy dean and professor of the School of Textile Science and Engineering of Jiangnan University, introduced the team’s research on fiber separator materials, antibacterial and antiviral functional textiles and their Industrialization. He said that the high specific capacity of lithium-sulfur batteries makes them a candidate for the next generation of high-energy-density batteries. However, its commercialization process still faces many challenges. Modifying the separator through physical magnetron deposition technology can effectively reduce battery costs. Energy density and improved battery performance.
Fiber and fabric materials used in spacecraft need to have complex structural configurations and diverse weaving forms. At the same time, complex service environments such as space rays, high and low temperatures, and high vacuum put forward multiple index requirements for fibers. Gao Hong, deputy chief engineer of the Materials Department of the China Academy of Space Technology, said that in the application and transformation of aerospace materials, it is necessary to take the material as the dimension and establish a material evaluation system based on the material type and application background; take the environment as the dimension, and based on the environmental impact of sensitive materials Establish data and evaluation methods, and establish a material-process-design coordination and iterative verification model.
3D woven materials have the advantages of high performance/diversification of structure, integration of structure/function, net shaping of large-sized complex components, and excellent out-of-plane performance. It is a mainstream manufacturing technology parallel to additive manufacturing. Zhang Diantang, a researcher at Jiangnan University and Ph.D. in Engineering, shared the topic of “Advanced 3D woven materials and deep-sea applications in aerospace.” He said that he will devote himself to some challenging research contents in the future: material-structure-function multi-scale design, damage mechanism and quantification of 3D braided materials in a multi-field coupling environment, fine control of prefabricated structure and automation of forming equipment, etc.
With the in-depth development of a new round of scientific and technological revolution, new fiber materials have replaced traditional materials with the advantages of high performance, multi-function, lightweight and flexibility, providing an important path for the textile industry to achieve value enhancement. As Professor Jiang Gaoming, director of the Knitting Technology Engineering Research Center of the Ministry of Education of Jiangnan University, said, we must seize the opportunity of the new round of industrial revolution and quickly integrate “Intelligent Manufacturing” and The “Green Manufacturing” action plan uses “dual cycle drive and multi-dimensional innovation” to accelerate the improvement of the industry’s independent innovation capabilities, increase research on core technologies such as new materials, new processes, and new equipment, and improve the international competitiveness of the textile industry.
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