Core Viewpoint - The new materials industry is crucial for supporting modern industrial systems and achieving high-level technological self-reliance, with significant strategic importance for building a strong manufacturing and quality nation [2]. Industry Background and Development Situation - During the 14th Five-Year Plan, China's new materials industry saw continuous growth, with total output value exceeding 8.2 trillion yuan and an average annual growth rate of over 12% [4]. - Achievements include breakthroughs in ultra-high-strength steel, high-performance carbon fiber, semiconductor silicon wafers, and key materials for lithium-ion batteries [4]. - Challenges remain in high-end materials and the need for improved self-sufficiency in core processes and equipment [4]. Overall Requirements - The guiding ideology emphasizes innovation-driven development, demand-oriented approaches, and green low-carbon principles [7]. - Key principles include self-reliance through innovation, application-driven demand, and collaboration among enterprises [9]. Development Goals (by 2030) - Comprehensive security capability for key strategic materials to reach over 80% [11]. - Global competitiveness in innovation, with over 500 key technologies developed [11]. - Establishment of over 20 internationally leading new materials industrial clusters [11]. Key Development Directions - Advanced basic materials include ultra-high-strength automotive steel and high-performance aluminum alloys [13]. - Key strategic materials focus on high-temperature alloys and advanced semiconductor materials [14][15]. - New energy materials target high-energy-density battery materials and efficient photovoltaic materials [16]. - Frontier new materials include low-dimensional and intelligent materials, as well as quantum information materials [17][18]. Key Tasks and Major Projects - Focus on urgent new materials needed in critical application areas such as aerospace and new energy vehicles [21]. - Specific targets include high-performance carbon fiber composites and lightweight aluminum alloys for automotive applications [22][26]. Collaborative Innovation System - Establish a collaborative innovation system centered on enterprises, integrating industry, academia, and research [45]. - Encourage leading enterprises to form innovation alliances with universities and research institutions [45]. Market Cultivation for Key New Materials - Implement insurance compensation mechanisms for the first application of key new materials to reduce user risks [50]. - Establish a project library for demonstration projects to showcase the advantages of new materials [50]. Standard System Improvement - Develop and revise over 500 key new material standards to ensure product quality and market order [51]. - Promote brand building for new materials through industry exhibitions and evaluations [51]. Internet Plus New Materials Action - Integrate new information technologies with the new materials industry to enhance operational efficiency [64]. - Establish national-level internet platforms for the new materials industry to facilitate real-time information sharing [64].

Core Viewpoint - The new materials industry is crucial for supporting modern industrial systems and fostering new productive forces, with significant strategic importance for China's high-level technological self-reliance and manufacturing strength [2]. Group 1: Industry Background and Development Situation - During the 14th Five-Year Plan, China's new materials industry saw continuous growth, with total output value exceeding 8.2 trillion yuan and an average annual growth rate of over 12% [4]. - Achievements include breakthroughs in ultra-high-strength steel, high-performance carbon fiber, semiconductor silicon wafers, and key materials for lithium-ion batteries [4]. - Challenges remain in high-end materials and the need for improved self-sufficiency in core processes and equipment [4]. Group 2: Overall Requirements - The guiding ideology emphasizes innovation-driven development, demand-oriented approaches, and green low-carbon principles [7]. - Key principles include self-reliance through innovation, application-driven demand, and collaboration among enterprises [9]. Group 3: Development Goals (by 2030) - Strategic material security capabilities should exceed 80%, with a focus on achieving global leadership in frontier new materials [11]. - The goal is to cultivate internationally competitive new materials enterprises and establish over 20 distinctive industrial clusters [11]. Group 4: Key Development Directions - Advanced basic materials include ultra-high-strength automotive steel and high-performance aluminum alloys [13]. - Key strategic materials focus on high-temperature alloys and advanced semiconductor materials [14][15]. - Frontier new materials include low-dimensional and intelligent materials, quantum information materials, and bio-based sustainable materials [17][18]. Group 5: Key Tasks and Major Projects - Focus on urgent new materials needed in key application areas such as aerospace, new energy vehicles, and electronic information [21]. - Specific targets include developing high-performance carbon fiber composites and high-energy-density battery materials [22][26]. Group 6: Collaborative Innovation System - Establish a collaborative innovation system centered on enterprises, integrating industry, academia, and research [45]. - Encourage leading enterprises to form innovation alliances with universities and research institutions [46]. Group 7: Market Cultivation for Key New Materials - Implement insurance compensation mechanisms for the first application of key new materials to reduce user risks [50]. - Establish a project library for demonstration projects to showcase the advantages of new materials in practical applications [50]. Group 8: Breakthroughs in Key Processes and Equipment - Focus on overcoming bottlenecks in key processes and specialized equipment for new materials production [55]. - Develop advanced manufacturing technologies such as additive manufacturing and automated composite material forming processes [56]. Group 9: Standard System Improvement - Construct a comprehensive standard system covering the entire new materials industry chain to ensure quality and consistency [60]. - Develop over 500 key new materials standards, including international standard proposals [62]. Group 10: "Internet Plus" New Materials Action - Promote the integration of new information technologies with the new materials industry to enhance operational efficiency [64]. - Establish national-level industry internet platforms to facilitate real-time information sharing across the supply chain [66].

Core Viewpoint - The new materials industry is crucial for supporting modern industrial systems and fostering new productive forces, with significant strategic importance for China's high-level technological self-reliance and manufacturing strength [2]. Group 1: Industry Background and Development Situation - During the 14th Five-Year Plan, China's new materials industry saw continuous growth, with total output value exceeding 8.2 trillion yuan and an average annual growth rate of over 12% [4]. - Achievements include breakthroughs in ultra-high-strength steel, high-performance carbon fiber, semiconductor silicon wafers, and key materials for lithium-ion batteries [4]. - Challenges remain in high-end materials, core process equipment autonomy, and the need for improved standards and evaluation systems [4]. Group 2: Overall Requirements - The guiding ideology emphasizes innovation-driven development, demand orientation, green low-carbon practices, and open collaboration [7]. - Key principles include self-reliance through innovation, application-driven demand, enterprise-led collaboration, and a focus on green and efficient practices [9]. Group 3: Development Goals (by 2030) - Strategic material security capabilities should exceed 80%, with a focus on achieving global leadership in original achievements in frontier new materials [11]. - The goal is to cultivate internationally competitive new materials enterprises and establish over 20 distinctive, complete, and internationally leading new materials industry clusters [11]. - Significant reductions in energy consumption and emissions during material production processes are targeted, alongside a substantial increase in the proportion of green low-carbon materials [11]. Group 4: Key Development Directions - Advanced basic materials include ultra-high-strength automotive steel, high-performance aluminum alloys, and advanced chemical materials [13]. - Key strategic materials focus on high-temperature alloys, integrated circuit materials, and new energy materials [14][15][16]. - Frontier new materials include low-dimensional and smart materials, quantum information materials, and bio-based sustainable materials [17][18]. Group 5: Key Tasks and Major Projects - Focus on urgent new materials needed in key application areas, such as aerospace, new energy vehicles, and electronic information [21]. - Specific targets include high-performance carbon fiber for aircraft and high-energy density battery materials for electric vehicles [22][26][28]. Group 6: Collaborative Innovation System - Establish a collaborative innovation system centered on enterprises, integrating industry, academia, and research [45]. - Encourage leading enterprises to form innovation alliances with universities and research institutions to tackle key technologies [46]. Group 7: Market Cultivation for Key New Materials - Implement insurance compensation mechanisms for the first application of key new materials to reduce user risks [50]. - Establish a project library for demonstration projects, providing financial support and policy incentives to promote new materials [50]. Group 8: Breakthroughs in Key Processes and Equipment - Focus on overcoming bottlenecks in key processes and specialized equipment for new materials production [55]. - Develop advanced manufacturing technologies, such as 3D printing and automated composite material forming processes [56]. Group 9: Standard System Improvement - Accelerate the establishment of a comprehensive standard system covering the entire new materials industry chain [60]. - Develop and revise over 500 key new materials standards to ensure product quality and market order [61].