The Ministry of Industry and Information Technology released the “12th Five-year Development Plan for New Materials Industry”

The Ministry of Industry and Information Technology released the “12th Five-year Development Plan for New Materials Industry” (hereinafter referred to as the “Planning”) on February 22.

According to the overall plan for the "Twelfth Five-Year Plan for National Economic and Social Development of the People's Republic of China" and the "Decision of the State Council on Accelerating the Cultivation and Development of Strategic Emerging Industries," the Ministry of Industry and Information has joined forces with the National Development and Reform Commission, the Ministry of Science and Technology, and the Ministry of Finance. Relevant departments and units have compiled the “12th Five-year Development Plan for New Materials Industry”. "Planning" is a programmatic document that guides the development of the new material industry in the next five years. It is an important basis for the allocation of government public resources and the guidance of enterprise decision-making.

The "plan" defines the definition and scope of new materials: new materials cover a wide range of fields, generally referring to newly emerged materials with excellent performance and special functions, or materials with improved performance and new functions after the improvement of traditional materials, mainly including New functional materials, high-performance structural materials, and advanced composite materials have changed in scope along with economic development, technological advancement, and industrial upgrading. To highlight the key points, the "plan" mainly includes the following six major areas: special metal functional materials, high-end metal structural materials, advanced polymer materials, new inorganic non-metallic materials, high-performance composite materials, and cutting-edge new materials.

- Key materials related to the textile field include:

Advanced polymer materials: Consolidate the advantages of organic silicon monomer production, and vigorously develop silicone rubber, silicone resin and other organic silicon polymer products. Focus on adjusting the structure of fluoropolymer products, focusing on the development of high-end fluoropolymers such as FEP, PVDF and high-performance PTFE, and actively developing fluorine-containing intermediates and fine chemicals Products. Accelerate the technological development and industrialization of electrolytic ion exchange membranes, battery separators and optical polyester membranes, and encourage the development, production and application of liquid and gas separation membrane materials. We will vigorously develop varieties of environmentally friendly high-performance coatings, long-term antifouling coatings, waterproof materials, high-performance greases, and flame-retardant foams.

New inorganic non-metallic materials: Development of high-performance glass fiber, continuous basalt fiber, high-performance friction materials and new green refractory products. Accelerate the promotion of new wall materials, inorganic fire insulation materials, and expand the scale of new building materials industry.

- The development focus of high performance reinforced fibers related to the textile field includes:

Carbon fiber: Strengthen high-strength, high-strength model, high-modulus and high-strength and high-modulus series of varieties of research, achieve stable operation of 1,000-ton devices, increase industrialization level, and expand product application.

Aramid: To expand the production scale of meta-aramid (1313), break through the bottleneck of industrialization of para-aramid (1414), and expand its application in the fields of honeycomb structure and insulation paper.

Ultra-high molecular weight polyethylene fiber: Actively develops high-performance polyethylene fiber (UHMWPE) dry spinning technology and products, breaks through the spinning grade special resin production technology, and reduces production costs.

New Inorganic Non-metallic Fibers: Actively develop high-performance glass fibers and products such as high-strength, low-dielectric, high-silica, and alkali-resistant, and vigorously develop new types of inorganic non-metal fibers such as continuous basalt, boron nitride, and rock wool.

Other high-performance fiber materials: active development of polyphenylene ether, poly[2,5-dihydroxy-1,4-phenylpyridinodiimidazole], aryl sulfone, polyimide, p-phenylbisoxazole Fiber and other new varieties.

Carbon/carbon composites: Focusing on the integration of high temperature resistance, ablation resistance, wear resistance, and structural and functional properties, we have strengthened research on material preforming, impregnated carburizing, and rapid preparation processes. Actively develop various types of materials such as heat-insulating tubes, heating elements, and helium needed for high-temperature processing furnaces and atmosphere furnaces, and promote the application of carbon/carbon composite brake pads and high-temperature fasteners in transportation equipment and high-temperature equipment.

- Key technologies for high-performance composites related to the textile sector include:

Focuses on key technologies such as polymerization, spinning, preoxidation, carbonization, and other high-performance acrylonitrile-based carbon fiber industrialization, aramid fiber polymerization, spinning, and solvent recovery technologies. Development of ceramic matrix composites sintering, infiltration and other preparation and processing technologies, carbon/carbon composites liquid impregnation, carburizing and rapid preparation process, development of fiber reinforced resin matrix composites winding, placement, hot melt prepreg, vacuum auxiliary resin Transfer molding (VARTM) technology.

The key equipment includes: breakthroughs in large-capacity polymerization vessels for carbon fiber, saturated steam drafting, wide-diameter high-temperature carbonization, constant-tension wire collection devices, high-corrosion-resistant high-precision twin-screw polymerization devices for aramid, and multi-axis winding machines for composite materials. Hot-melt prepreg machine, fiber placement machine, ultra-high temperature hot-press molding equipment.

- The high-performance composite bases associated with the textile sector include:

Focus on the construction of Lianyungang, Jiangsu, Weihai, Shandong, Jilin carbon fiber and its composite materials base, Chongqing, Taian, Shandong, Jiaxing, Zhejiang and other high-performance glass fiber and composite materials base, Beijing, Guangdong, Shandong and other resin matrix composites base, Hunan carbon/carbon Composite Materials Base, Chengdu, Sichuan Composite Composite Base.

- Major projects related to the textile sector include:

Cost-effectiveness of carbon fiber and high-end innovation demonstration projects: Engineering strives to achieve a carbon fiber production capacity of 12,000 tons by 2015, basically meeting the needs of aerospace, wind power generation, and transportation equipment. Organized the development of industrial production technologies for PAN-based carbon fibers, breakthroughs in key equipment constraints such as pre-oxidation furnaces, high- and low-temperature carbonization furnaces, constant-tension wire harvesters, and high-temperature graphitization furnaces, and development of special spinning oils and Carbon fiber sizing agent. Technical reforms were carried out around polyacrylonitrile-based (PAN) carbon fiber and its supporting strands to increase the industrialization level of existing fibers, achieve stable operation of GQ3522-1000-tonne equipment, and reduce production costs. Strengthen the technological breakthroughs of GQ4522, QZ5526 and other series of varieties to achieve industrialization.

High Performance Membrane Material Special Project: Engineering strives to achieve autonomy in membranes for water treatment, power battery separators, chlor-alkali ion membranes, optical polyester films, etc., to increase self-sufficiency, to meet energy-saving emission reduction, new energy vehicles, and new energy sources by 2015 Development needs. Actively develop various types of membrane materials and membrane modules and membrane modules to meet desalination and water treatment needs. To improve the level of production technology for chlor-alkali perfluorinated ion exchange membranes, we will develop high-performance battery separators, key equipment, and perfluorinated ion exchange membranes for power batteries and their associated fluorine-containing sulfonic acid and fluorine-containing carboxylic acid resins for industrialization. Completed a chlor-alkali perfluorinated ion exchange membrane of 500,000 square meters per year, 200,000 square meters per year of perfluorinated ion exchange membranes for power batteries, and its supporting perfluorosulfonic acid resin and perfluorocarboxylic acid resin to accelerate the development of polyvinyl fluoride ( PVF) film for solar cells.

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