Altair > Case Studies > Innovative Architectural Design: Zaha Hadid Architects Leverages 3D Printing and Topology Optimization

Innovative Architectural Design: Zaha Hadid Architects Leverages 3D Printing and Topology Optimization

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Technology Category
  • Analytics & Modeling - Digital Twin / Simulation
Applicable Industries
  • Construction & Infrastructure
  • Equipment & Machinery
Applicable Functions
  • Product Research & Development
Use Cases
  • Additive Manufacturing
  • Rapid Prototyping
  • Virtual Prototyping & Product Testing
Services
  • System Integration
About The Customer
Zaha Hadid Architects, founded in 1979, is one of the world’s most innovative architecture studios. The firm is known for its pioneering approach to design and its exploration of new design and construction methods to solve architectural problems. The Computation and Design research group (co|de) of the company, consisting of 10 people, investigates various simulation and design techniques as well as software. They have deep knowledge of advanced simulation and design tools. At Zaha Hadid, innovation combines three key aspects: geometry, structure, and fabrication. The firm uses state-of-the-art form-finding tools and technologies and continuously works on integrating these tools and methods into their design language.
The Challenge
In 2016, Zaha Hadid Architects and its Computation and Design research group (Zaha Hadid co|de) sought to explore the potential of 3D printing and topology optimization for their projects. They collaborated with Stratasys, a renowned 3D printing company, to conduct a study for the design and fabrication of a 3D printed chair. The challenge was to optimize and ensure the feasibility of their design. The team aimed to integrate advanced optimization techniques into their workflow, which required a software suite for computer-aided engineering. The goal was to make complex shapes feasible and drive innovation in architectural processes. The design atelier of Zaha Hadid, founded in 1979, is one of the world’s most innovative architecture studios and an early pioneer of innovative design. The Computation and Design research group (co|de) of the company investigates new design and construction methods to solve architectural problems, exploring various simulation and design techniques as well as software.
The Solution
To address the challenge, Zaha Hadid co|de used Altair HyperWorks, a software suite for computer-aided engineering, and worked with Altair Engineering to integrate advanced optimization techniques into their workflow. They also used Altair HyperMesh™ and Altair OptiStruct™ to integrate topology optimization into their design processes. The primary goal with topology optimization was to eliminate material where it was not required, and as a result, reduce the weight of the structure. The design process followed a two-step optimization process with an iterative workflow: First, a geometrical model was generated in the design tool. Then, the meshing and optimization was set up in a custom workflow plug-in. Subsequently, a topology optimization analysis in Altair OptiStruct was performed. In the next step, the geometry was rationalized and re-meshed to produce a structurally efficient geometry.
Operational Impact
  • The successful integration of 3D printing and topology optimization into Zaha Hadid's design workflow has driven innovation and form-finding. The new special workflow and custom plugin allowed the designers to fully benefit from OptiStruct topology optimization analyses very early in the design process without having to leave their design interface. This has reduced the risk of structural inefficiency and costs. The topology optimization results obtained with Altair OptiStruct now form the basis for the design, just like a blueprint. Once an initial design has been finalized, it is verified by a structural engineer before moving forward into fabrication. With the help from Altair, Zaha Hadid improved their CAE knowledge and integrated optimization into their workflow. The team is now planning to use the Altair HyperWorks platform and methods such as topology optimizations and 3D printing in larger scale projects and throughout its architectural offices, driving innovation even further.
Quantitative Benefit
  • The optimized design geometry was more functional and stable
  • Material requirements were cut down
  • The overall weight of the chair was reduced by 50 percent

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