建築外牆結構
Façade Structure Design and Analysis
提供外牆與主體結構整合、複雜幾何模型建構及外牆結構分析等全方位服務。透過高精度數位建模與跨專業協同設計,檢核施工空間與接合細部,確保系統介面精準與結構安全。藉由運算模擬與性能驗證,提升外牆施工效率、耐久性與整體品質,實現建築美學與工程技術的完美平衡。 Providing comprehensive services in façade–structure integration, complex geometry modeling, and façade structural analysis. Through high-precision digital modeling and interdisciplinary coordination, we review construction space and connection details to ensure precise interfaces and structural reliability. Advanced computational simulation and performance verification enhance construction efficiency, durability, and overall quality, achieving a refined balance between architectural aesthetics and engineering excellence.
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外牆與結構系統的整合Integration of Façade and Structural Systems
審查並協調建築立面系統與主體結構之間的接口,包括連接方式、施工公差和空間要求。透過三維建模和跨學科協調,可及早發現潛在衝突。最佳化的介面設計可提高立面安全性、安裝精度和整體施工效率。Review and coordinate the interface between the building façade system and primary structure, including connection methods, construction tolerances, and spatial requirements. Through 3D modeling and interdisciplinary coordination, potential conflicts are identified at an early stage. The optimized interface design enhances façade safety, installation precision, and overall construction efficiency. -
複雜結構建模Complex Structural Modeling
針對複雜幾何形狀或非常規立面結構,開發高精度計算模型。這些模型整合了參數化幾何和結構分析數據,作為設計驗證和現場定位的基礎。先進的模擬技術可實現變形預測和材料最佳化,從而確保結構的精度和可施工性。Develop high-precision computational models for complex geometries or unconventional façade structures. These models integrate parametric geometry and structural analysis data, serving as the foundation for design validation and on-site positioning. Advanced simulations allow for deformation prediction and material optimization, ensuring structural accuracy and constructability. -
外牆結構分析Façade Structural Analysis
根據當地立面工程規範進行結構計算,以評估立面構件在風荷載、地震荷載和自重荷載作用下的承載能力。應用有限元素分析和實驗數據來驗證系統穩定性和安全係數,確保符合性能和規格要求。Perform structural calculations in accordance with local façade engineering codes to evaluate the load-bearing capacity of façade components under wind, seismic, and self-weight conditions. Finite element analysis and experimental data are applied to verify system stability and safety factors, ensuring compliance with both performance and regulatory requirements.