[Textile and Apparel Weekly-Feed] On the morning of January 9, the 2016 National Science and Technology Awards Conference was held in the Great Hall of the People, and the results of the awards were all announced. Researcher of the Institute of Physics of the Chinese Academy of Sciences, Academician of the Chinese Academy of Sciences, Zhao Zhongxian, and Researcher of the Chinese Academy of Traditional Chinese Medicine, Tu Yu, respectively won the National Science and Technology Award.
The National Natural Science Award, the National Technology Invention Award and the National Science and Technology Progress Award jointly selected 279 award-winning projects. In addition, five foreign experts and one international organization won the International Science and Technology Cooperation Award of the People's Republic of China.
There are four projects in the textile industry, including one second prize of the National Technology Invention Award and three second prizes of the National Science and Technology Progress Award.
The project “Creation of Out-of-tube Falling Film Liquid Phase Viscosity Reactor and New Technology of Solvent Straight Spinning Polyester Industrial Silk†won the second prize of National Technology Invention Award, “Key Technology and Industrialization of Fully Automatic Computerized Knitting Machine Equipment Supporting Industrial Internet The project, the key technologies and industrialization of ramie eco-efficient textile processing, and the key technologies and industrialization of dry-process polyimide production won the second prize of the National Science and Technology Progress Award.
Second Prize of National Technology Invention Award
project name:
Creation of Out-of-pipe Falling Film Liquid Phase Viscosity Reactor and New Technology of Solution Straight Spinning Polyester Industrial Silk
Main Completions (Unit): Chen Wenxing (Zhejiang University of Technology), Jin Ge (Zhejiang Guxiandao New Materials Co., Ltd.), Yan Xuming (Yangzhou Huitong Chemical Technology Co., Ltd.), Liu Xiong (Zhejiang Guxiandao New Materials Co., Ltd.) Company), Wang Jianhui (Zhejiang Guxiandao New Material Co., Ltd.), Zhang Xianming (Zhejiang University of Science and Technology)
The preparation of high-viscosity polyester solution by melt polycondensation is a major technical problem in the polymer industry. Therefore, the production of polyester industrial yarn in the world has long been first melt-polycondensed, then solid-phase polycondensation, in the three-stage process of melt spinning (slice spinning process). This production method has long process flow, large equipment investment and high production energy consumption.
At present, green development has become a national strategy, and it is imperative to develop energy-efficient production technologies. For decades, internationally renowned companies have been working on the development of a new horizontal stirred reactor for the preparation of industrial grade high viscosity polyester solutions, but have not yet achieved large-scale industrialization. The project abandoned the research and development of horizontal reactors through innovation. The melt polycondensation method invented the core equipment and developed the whole process technology, and successfully realized the high efficiency, energy saving, short process and flexible production of polyester industrial yarn.
The project has built the world's largest production capacity and lowest energy consumption of 200,000 tons and 300,000 tons of two solution direct-spinning polyester industrial yarn production line. Compared with the slice spinning production line, it saves 420 million yuan in equipment investment and shortens the process flow by more than 30 hours. The project has reached the international leading level and is an original technological breakthrough in the polyester industry.
Second Prize of National Science and Technology Progress Award
project name:
Key technology and industrialization of fully automatic computerized flat knitting machine equipment supporting industrial internet
Main completed units: Zhejiang Normal University, Ningbo Cixing Co., Ltd., Gutech (Shenzhen) Co., Ltd.
Main Completions: Zhu Xinzhong, Sun Pingfan, Li Lijun, Lu Shu, Zhao Jianmin, Wu Qiliang, Xu Huiying, Hu Yueyong, Gong Xiaoyun, Liu Yue
For a long time, the knitting flat knitting machine market has been monopolized by foreign brands such as Shimadzu and Stol, and has severely restricted and hindered the development of China from a large knitting country to a strong country. It is imperative to realize the localization and autonomy of fully automatic computerized flat knitting machine equipment.
The development of domestically produced models not only faces high-speed and stable operation, elimination of bottom waste yarn, smooth weaving, precise coordinated control and knitted fabric simulation, automatic identification, machine networking and other major technical problems, but also must face foreign patent technical barriers.
The project started from breaking through the protection of foreign patent technology and overcoming the key and major problems of the common industry, breaking the technological monopoly of developed countries, mainly focusing on the key technology and industrialization of automatic computerized knitting machine, and grasping and mastering the automatic bottoming weaving, High-quality complex pattern weaving, high-speed weaving loop mechanism, automatic simulation of knitted fabrics and knitted fabrics, multi-sensor information fusion intelligent control strategy technology and industrial Internet intelligent manufacturing integration technology, fully realized the new automatic computerized flat knitting machine Localized, comprehensive performance has reached the international advanced level.
The project's achievements have successfully replaced imports, breaking the long-term monopoly of foreign counterparts and promoting the technological advancement of the knitting industry.
Second Prize of National Science and Technology Progress Award
project name:
Key technologies and industrialization of ramie eco-efficient textile processing
Main Completion Unit: Hunan Huasheng Group Company, Donghua University, Hunan Agricultural University
Main Completions: Cheng Longzhen, Rong Jinlian, Xiao Qunfeng, Li Yuling, Yan, Chen Jiwu, Jie Yucheng, Yan Guixiang, Yan Ying, Cui Yunhua
Ramie is a special fiber resource in China. Its output accounts for more than 90% of the world. It has the characteristics of high strength, low elongation, moisture absorption, moisture permeability and quick drying. It has natural anti-mildew, anti-ultraviolet and other functions. It is a high-quality natural cellulose fiber. .
The ramie industry has a long history. The current development dilemma is long process flow, low labor productivity, low added value of products, and serious homogenization competition. The main reason is that ramie has high rubber content, coarse fiber, high crystallinity, large dispersion, large degumming pollution, serious yarn hairiness, and it is difficult to produce pure spinning light fabric. The fabric has low color fastness, strong itching and easy wrinkling, which restricts The development of castor industry. The project has carried out systematic research and development in the fields of ramie planting, degumming, spinning, weaving, dyeing and finishing, and developed eco-efficient biochemical one-step degumming technology, smooth spinning technology, high-efficiency weaving technology, dyeing and finishing technology, and high cultivation. A new variety of low-density ramie.
The average yarn unit price of the technical application unit of the project increased by 45%, and the unit price of the fabric increased by 60%. The realization of the eco-efficient energy-saving emission reduction effect, production efficiency, product quality has greatly improved, and promoted the technological progress of ramie textile.
Second Prize of National Science and Technology Progress Award
project name:
Key technologies and industrialization of dry polyimide preparation
Main completed units: Donghua University, Jiangsu Aoshen New Materials Co., Ltd.
Main Completions: Zhang Qinghua, Wang Shihua, Zhan Yongzhen, Chen Dajun, Tao Mingdong, Guo Tao, Dong Jie, Zhao Wei, Miao Ling, Chen Bin
As a typical high-performance fiber, polyimide (PI) fiber not only has excellent mechanical properties, but also has excellent heat resistance and radiation resistance, making the fiber more difficult in space exploration, high temperature, radiation and other harsh environments. Other polymer fibers have greater advantages and are one of the most needed materials in the country.
PI fiber was first commercialized by the Austrian company Lenzing, and it has been in a monopoly for a long time. Therefore, it is imperative to realize the localization of PI fiber.
At present, the production of PI fibers at home and abroad adopts the wet spinning technology route, which has long production process, large energy consumption for solvent recovery, and easy environmental pollution.
In order to improve the performance of the product and the greening of the production process, the project proposed a new method of "reactive spinning" for PI fiber dry spinning, breaking through a series of key technical bottlenecks in fiber preparation, and realizing the fiber preparation process and The technical integration of the equipment has built the world's first dry PI fiber 1000-ton production line.
Compared with the international level, the PI fiber produced by the project has increased the fracture strength by 10%, the temperature stability has increased by 100 °C, and the raw material cost is 1/3 of the former.
This product has been successfully used as a high temperature resistant filter material, which plays an important role in the treatment of atmospheric pollution such as PM10 and PM2.5 generated by industries such as coal burning and cement production. The product is also used in fire protection clothing, tactical missile internal insulation layer, radome, nuclear facility protection and other fields, which has effectively promoted the leap-forward development of China's high-performance fiber industry.
Editor in charge: Liu Xiaomei
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