Core Insights - Zhongtian Kesheng has transformed from a family-owned enterprise facing obsolescence to a technology-driven new materials company with an annual output value of 330 million yuan, achieving a 20% market share in the domestic market for its independently developed aliphatic polyurethane elastomer raw materials [1] - The transformation of Shanghai's Jinshan District reflects a broader industrial renaissance, moving from a chemical industry hub to a technology innovation oasis through systematic restructuring and environmental improvements [2][3] Company Development - Zhongtian Kesheng has consistently invested 3% of its revenue into R&D, successfully overcoming key technological challenges in high-end raw materials and has been listed in the new third board innovation tier for several consecutive years [1] - The company’s focus on technological innovation has allowed it to break through critical technology bottlenecks, enhancing its product development and innovation capabilities [1] Industry Transformation - Jinshan District has seen a significant increase in high-tech enterprises, with a 39.5% rise in the number of such companies and a staggering 375.3% growth in specialized and innovative enterprises [3] - The area has also experienced a tenfold increase in PCT international patent applications and a 7.7-fold rise in technology contract transaction volume, indicating a substantial enhancement in technological innovation density [3] Economic Growth - In 2024, Jinshan District's GDP is projected to exceed 120 billion yuan, with a per capita GDP of approximately 15.2 million yuan [5] - The industrial output value surpassed 300 billion yuan, with significant contributions from sectors like fiber materials, drones, and new optical transmission materials [5] - The service industry has rapidly developed, with the industrial structure shifting from 0.8:67.4:31.8 at the end of the 13th Five-Year Plan to 0.6:58.5:40.9 currently, particularly with a projected annual growth rate of 62% in the service sector [5]

Core Insights - Smart materials have emerged as a cutting-edge direction in the new materials field, with the potential to profoundly change human society through deep integration with artificial intelligence [1][6] Summary by Sections Definition and Characteristics of Smart Materials - Smart materials are defined as materials that can sense environmental changes, make judgments, and execute commands, distinguishing them from traditional materials [2] - Key characteristics include the ability to actively change shape, hardness, color, and function in response to external stimuli, integrating sensing, driving, and information processing [2][3] Types and Applications of Smart Materials - At least twenty types of smart materials have been identified, including: - Piezoelectric materials for energy conversion and vibration control - Shape memory alloys used in medical devices like stents - Magnetostrictive materials for ultrasound transducers - Electrorheological and magnetorheological materials for adaptive dampers in vehicles - Self-healing materials for automotive applications [3][4][5] Integration with Artificial Intelligence - The concept of "wise materials" has been introduced, where smart materials are enhanced with AI capabilities, allowing them to make autonomous decisions and adapt to their environment [6] - Examples of applications include AI-controlled prosthetics and smart lenses that adjust focus based on eye movement [6] Market Potential and Future Outlook - The global smart materials market is projected to reach up to $250 billion by 2030, driven by advancements in AI, brain science, and biotechnology [7] - In various sectors, smart materials are expected to lead to innovations such as personalized medical treatments, green energy solutions, and enhanced safety systems [7] Current Status and Challenges - While China leads in basic research and certain advanced fields, there remains a gap in the transformation of consumer products and the establishment of an industrial ecosystem compared to developed countries [8] - Emphasis is placed on the need for interdisciplinary collaboration to accelerate product development and application [8]

以下文章来源于化育新材 ，作者胡广君 化育新材 . 本公众号是北化新材料校友会打造的新材料产业界高水平专业化沟通交流开放共享的公益性平台，旨在 服务校友、校友之友、校友企业和新材料产业。 "化育新材"：1）校训"宏德博学，化育天工"的外延； 2）变化孕育新材料；3）化学带来变化，有变化有创新。 AI引领的第四次工业革命下化工/材料企业面临的机遇与挑战 作者：盛虹先进材料研究院 胡广君 摘要： AI驱动的第四次工业革命为化工/材料行业带来双重机遇与挑战。2024年诺贝尔奖肯定AI技术突破，推动其 进入L2-L3级阶段（智慧推理至行动执行）。AI具身化（机器人、AR设备等）催生百亿级新材料需求，如轻量化 复合材料和柔性传感器，革新"4D任务"（危险、枯燥、脏污、简易）场景。AI还重塑生产优化、设备预测维护等 七大领域，助力降本增效。但技术瓶颈、数据孤岛和高成本仍待解决。中国凭借丰富场景优势，有望在垂直领域 领先。企业需布局试点、数据安全及AI材料研发，构建生态，从"应用者"迈向"引领者"。 一、以人工智能（Artificial Intelligence, AI）为核心驱动力的第四次工业革命正在发生 2024年诺贝 ...