Intelligent Composite Material Design and Its Aerospace Applications (Submission Deadline: May 31, 2026)
智能复合材料设计及其航空航天应用
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Co-chairs: |
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| Xiaozhou Xin |
Cheng Lin |
Wei Zhao |
Chengjun Zeng |
| Harbin Institute of Technology, China |
Harbin Institute of Technology, China |
Harbin Institute of Technology, China |
Harbin Institute of Technology, China |
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| Keywords (include but are not limited to): |
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- Intelligent Composite (智能复合材料)
- Shape Memory Material (形状记忆材料)
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| Topics: |
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- Multi physics field response and device design of intelligent materials (智能材料多物理场响应与器件设计)
- Mechanical design and performance control of intelligent structures (智能结构的力学设计与性能调控)
- Engineering applications of intelligent structures in aerospace, flexible electronics, robotics, biomedicine, and other fields (智能结构在航空航天、柔性电子、机器人、生物医疗等领域的工程应用)
- 4D printing (4D打印)
- Additive manufacturing (增材制造)
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| Summary: |
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- Focusing on cutting-edge technologies, design innovations, and aerospace engineering applications in the field of intelligent composite materials, we aim to help upgrade aerospace equipment towards lightweight, high-performance, intelligent, and long-life directions. Intelligent composite materials are functional composite materials that can sense environmental changes, autonomously respond, and adjust their own performance under external stimuli such as external forces, heat, electricity, and magnetism. Through the collaborative composite of multi-component materials, they achieve a breakthrough in the integration of structural load-bearing and intelligent functions, perfectly adapting to the demanding requirements of extreme environmental adaptability, reliability, and lightweight materials in the aerospace industry. The focus is on exploring the design theory, interface engineering, and cross scale control technology of intelligent composite materials, covering shape memory materials, carbon fibers, piezoelectric materials, nanomaterials, as well as advanced manufacturing processes in additive manufacturing. We will conduct in-depth discussions on the engineering applications of intelligent composite materials in key components such as adaptive wings, intelligent skins, space deployable structures, spacecraft landing buffers, vibration control, and flexible solar wings.
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- 聚焦智能复合材料领域的前沿技术、设计创新与航空航天工程化应用,助力航空航天装备向轻量化、高性能、智能化、长寿命方向升级。智能复合材料在外力、热、电、磁等外界激励下,能够感知环境变化、自主做出响应并调节自身性能的功能复合材料,通过多组分材料的协同复合,实现结构承载与智能功能的一体化突破,完美适配航空航天领域对材料极端环境适应性、可靠性与轻量化的严苛需求。重点探讨智能复合材料的设计理论、界面工程、跨尺度调控技术,涵盖形状记忆材料、碳纤维、压电材料、纳米材料,以及增材制造先进制造工艺。围绕智能复合材料在自适应机翼、智能蒙皮、空间可展开结构、航天器着陆缓冲、振动控制及柔性太阳翼等关键部件的工程化应用展开深入研讨。
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