| Stability Evaluation and Intelligent Resilience Enhancement Technology of Transportation Infrastructure |
| 交通基础设施稳定性评价与智能化韧性提升技术 |
| Submission Deadline: June 28, 2026 |
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| Chair: |
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| Yu Zhang |
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| Lanzhou Jiaotong University, China |
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| Keywords: |
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- Transportation Infrastructure (交通基础设施)
- Stability Assessment (稳定性评价)
- Intelligent Resilience Enhancement (智能化韧性提升)
- Whole Life Cycle (全生命周期)
- Ecological Protection (生态保护)
- Low-carbon Construction (低碳建造)
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| Topics: |
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- Intelligent Detection and Monitoring Technologies of Transportation Infrastructure (交通基础设施智能检测与监测技术)
- Interaction Mechanism between Plateau Environment and Transportation Infrastructure & Numerical Analysis of Multi-field Coupling (高原环境-交通基础设施相互作用机理与多场耦合数值分析)
- Service Performance Evolution and Prediction of Transportation Infrastructure under Extreme Climatic Conditions (极端气候条件下交通基础设施服役性能演化与预测)
- Whole Life Cycle Performance Assessment and Operation & Maintenance Strategies of Transportation Infrastructure (交通基础设施全生命周期性能评估与运维策略)
- Application of New Materials and New Technologies in Transportation Infrastructure (新材料与新技术在交通基础设施中的应用)
- Ecological Protection and Low-carbon Construction Technologies for Transportation Infrastructure (交通基础设施生态保护与低碳建造技术)
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| Summary: |
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- With the intensification of global climate change, the construction, operation and maintenance of transportation infrastructure are facing increasingly severe challenges. Under the complex coupling effect of hydraulic-thermal-mechanical multi-fields, transportation infrastructure is highly susceptible to instability, which seriously undermines its long-term safe service performance and engineering durability. To tackle this challenge, it is imperative to make theoretical and technological breakthroughs in such research areas as engineering geological investigation, structural disease treatment and evaluation, theoretical and experimental research on multi-field coupling, design and green construction technologies for transportation infrastructure, as well as service performance evolution and resilience enhancement technologies of transportation infrastructure.
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- 随着全球气候变化加剧,交通基础设施的建设与运维面临日益严峻的挑战。在复杂的水-热-力多场耦合作用下,交通基础设施极易发生失稳,严重影响其长期安全服役性能与工程耐久性。为应对这一挑战,亟需开展工程地质勘察、病害处治与评价、多场耦合理论及试验研究、交通基础设施设计与绿色建造技术、交通基础设施服役性能演化及韧性提升技术等方面取得理论与技术突破。
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