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Optimized Architectural Design through Simulation: Zaha Hadid’s Volu Pavilion
技术
- 分析与建模 - 数字孪生/模拟
- 传感器 - 温度传感器
适用行业
- 建筑物
- 建筑与基础设施
适用功能
- 产品研发
用例
- 快速原型制作
- 结构健康监测
服务
- 系统集成
挑战
扎哈·哈迪德建筑事务所是一家成立于1979年的设计工作室,始终走在创新的前沿,采用理论指导、系统知识生成和协作设计。该公司的计算和设计研究小组 (co|de) 成立于 2007 年,旨在开发早期设计方法,以便能够在数字设计和提供的广阔的建筑可能性中直接搜索物理上、经济上和人体工程学上可行的解决方案。施工方法。在 2015 年迈阿密设计展上,扎哈·哈迪德 co|de 团队受委托打造一座集计算设计、轻量化工程和精密制造于一体的现代餐饮馆。我们面临的挑战是创造一个独特的就餐环境,即 Volu Pavilion,该环境具有令人惊叹的视觉效果、成本效益,并采用先进的设计和制造技术。
关于客户
扎哈·哈迪德建筑事务所 (Zaha Hadid Architects) 是一家著名的建筑公司,由已故建筑师扎哈·哈迪德 (Zaha Hadid) 于 1979 年创立,她是一位以其创新和未来主义设计而闻名的先锋建筑师。该公司以突破建筑和设计的界限而闻名,经常将新技术和材料融入到他们的项目中。该公司的计算和设计研究小组 (co|de) 成立于 2007 年,专注于开发早期设计方法,这些方法能够在数字设计和提供的广阔的建筑可能性中直接搜索物理上、经济上和人体工程学上可行的解决方案。施工方法。 co|de 团队目前由 10 名成员组成,其活动分布在研究、商业项目贡献、新颖配套建筑服务的技术孵化、设计话语的交流和传播、研究等方面。
解决方案
为了打造独特的轻质稳定结构 Volu Pavilion,code 团队使用 Altair HyperWorks 平台进行计算机辅助工程。 HyperWorks 工具在流程的早期就为设计提供了信息,为从一开始就创建更好的设计铺平了道路。使用 Altair OptiStruct 中的拓扑优化算法分析结构载荷下的几何形状,并对结构系统和蒙皮进行优化,以去除不必要的材料,从而实现稳定且最轻的设计。优化为金属梁的放置提供了指导,以创建稳定的形式。使用 Altair OptiStruct 获得的结果可以更快地合理化拓扑优化结果,为设计人员开发创新形状提供蓝图。迭代过程允许通过平板材料的单次弯曲来获得工程反馈和复杂且富有表现力形式的综合设计开发。
运营影响
数量效益
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