Integrated Technology of Smart Structural Design Optimization and Ground-based Strength Testing for Aircraft
飞机智能结构优化设计与强度地面测试技术 (Submission Deadline: June 15, 2026)
| Chair: |
Co-chair: |
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| Hongwei Zhao |
Zhigang Wang |
Aircraft Strength Research Institute of China, China
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Aircraft Strength Research Institute of China, China
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| Keywords: |
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- Aircraft Smart Structures (飞机智能结构)
- Ground Testing Technology (地面测试技术)
- Optical Measurement (光学测量)
- Digital Twin (数字孪生)
- Structural Health Monitoring (SHM) (结构健康监测)
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| Topics: |
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- Aircraft Smart Structure Optimization and Testing Technology (飞机智能结构优化与测试技术)
- Virtual-Physical Integrated Digital Twin Verification for Structural Testing (虚实结合的结构试验数字孪生验证)
- High-Precision and Automatic Optical Measurement Technology (高精度测量与自动光学测量技术)
- Real-Time Test Data Processing and Structural Health Monitoring (SHM) Technology (试验数据实时处理与结构健康监测技术)
- Multi-Physics Coupled Testing Technology under Extreme Loading Environments (极端载荷环境下的多物理场耦合测试技术)
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| Summary: |
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- This track addresses the cutting-edge intersection of integrated optimization design for aircraft smart structures and ground-based strength testing verification under complex loading environments, aiming to establish a technical framework for next-generation aeronautical equipment encompassing "intelligent design—virtual verification—physical testing." Addressing the stringent requirements of modern aircraft regarding smart structural integrity, ultimate load-bearing capacity, and long-term reliability, structural strength ground testing technologies provide reliable technical support for critical verification processes—including full-scale static testing, fatigue life verification, damage tolerance assessment, and composite structure failure prediction—through high-precision strain measurement, full-field optical deformation monitoring, multi-channel coordinated loading control, and intelligent damage identification. The session will explore frontiers including: smart structure optimization technologies for next-generation aircraft; full-scale structural testing technologies; non-contact deformation field reconstruction based on optical measurement and Digital Image Correlation (DIC); virtual-physical integrated digital twin verification for structural testing; AI-enabled real-time test data processing and Structural Health Monitoring (SHM); and multi-physics coupled testing under extreme loading environments. We cordially invite academia and industry to share experiences from major aircraft program strength tests and innovations in advanced sensing and loading systems, thereby advancing the intelligent transformation and standardization of aircraft structural optimization design and ground-based strength testing technologies.
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- 本专题聚焦飞机智能结构优化设计与复杂载荷环境下强度地面试验验证的前沿交叉,旨在构建面向新一代航空装备"智能设计-虚拟验证-物理试验"的技术体系。针对现代航空器对智能结构完整性、极限承载能力、长寿命可靠性的严苛要求,结构强度地面测试技术通过高精度应变测量、全场光学变形监测、多通道协调加载控制与损伤智能识别,为全机静力试验、疲劳寿命验证、损伤容限评估、复合材料结构失效预测等关键验证环节提供可靠的技术支撑。专题将探讨:面向新一代航空器的智能结构优化设计技术、全尺寸结构试验技术、基于光学测量与数字图像相关的非接触变形场重构方法、虚实结合的结构试验数字孪生验证、AI赋能的试验数据实时处理与结构健康监测,以及极端载荷环境下的多物理场耦合测试等前沿方向。诚邀学术界与工业界分享重大型号强度试验经验、新型传感与加载装备研发成果,推动飞机结构设计优化与强度地面测试的智能化转型与标准化发展。
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