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凯捷:2025结构创新革命:当数字化设计与综合效能相融合研究报告(英文版)(27页).pdf

上传人: 1****1 编号:984982 2025-12-08 27页 8.51MB

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1、The revolution of innovative architecture structures.When design meets efficiency.2The revolution of innovative architecture structures2The revolution of innovative architecture structuresIntroductionPAGE 3 Executive summaryPAGE 4 Understanding architectured structures PAGE 6 Key engineering challen

2、ges PAGE 13 Addressing challenges through digital engineeringPAGE 15 ConclusionPAGE 2301010202030304040505Index 3The revolution of innovative architecture structuresIntroduction Additive manufacturing(AM)has proven its worthin prototyping,but scaling to industrializationremains complex.Challenges in

3、clude speed of production,need to post-process the component,expertise in Design for Additive Manufacturing and fragmented workflows.Companies need a structured approach spanning strategy,design,and production.From an engineering perspective,four barriers stand out:materials,quality,scale,and integr

4、ation.Materials&Process Control:AM offers limitedmaterial options,and variability in powder flow or thermal behaviour impacts quality.AI-driven materials informatics can identify new combinations,while digital material passports ensure consistencyand traceability.Quality&Reliability:Repeatability is

5、 a bottleneck.Edge AI can monitor melt pool dynamics in realtime for closed-loop corrections and early defectdetection.Digital twins enable virtual validation,reducing qualification time for regulated sectorslike aerospace.Scale&Speed:Current AM machines lag behindcasting or moulding in throughput.I

6、nnovations such as ETH Zurichs RAPTURE and AI-enabled process control show promise for automation that boosts speed without sacrificing precision.Design&Standardization:AM demands a Designfor Additive Manufacturing(DfAM)mindset lightweighting,function integration,andmanufacturability.Digital continu

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根据报告的内容,全文主要探讨了架构化材料在创新建筑结构中的应用及其带来的变革。以下是关键点: 1. 架构化材料通过复杂内部几何结构优化材料性能,减轻重量,提高强度和效率。 2. 桁架结构在航空航天、汽车、能源和生物医学等领域应用广泛,如Nissan的声学超材料和生物医学植入物。 3. 架构化材料具有轻量化、能量吸收、热管理和生物相容性等优势。 4. 桁架结构设计多样,包括表面基和桁架基结构,适用于不同材料和应用。 5. 数字工程在解决设计、生产、认证等挑战中发挥关键作用,如先进设计工具、物理性能表征、增材制造工艺优化和可持续性。 6. 架构化材料有望成为未来高性能工程应用的基础。
架构化金属的奥秘?" 架构化材料如何改变世界?" 架构化材料在航空航天中的应用!"
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