During the study phase, our team of engineers and 3D modellers will work closely together to deliver a complete construction plan set.
This phase involves comprehensive discussions and analysis to grasp the project’s objectives, architectural vision, functional requirements, and constraints. It includes understanding the client’s needs, design concepts, and the intended use of the structure.
This step involves identifying and quantifying the anticipated loads the structure will bear, including live loads (such as occupants, furniture), dead loads (building materials), environmental loads (wind, snow), and seismic loads. It also entails understanding the geometry of the building, its dimensions, shapes, and spatial requirements.
Here, the focus is on determining the most suitable structural system(s) for the building. This includes evaluating various options like beams, columns, slabs, frames, or trusses, considering factors such as load-bearing capacity, flexibility, aesthetics, and cost- effectiveness. It also involves deciding the direction of spans for beams, slabs, and other structural elements.
This phase ensures that the structure can effectively resist imposed loads and maintain stability. It involves analyzing load distribution, considering factors like gravity, lateral forces (wind, seismic), and determining appropriate bracing systems to limit deformation and prevent collapse.
This step involves fine-tuning the structural elements (beams, columns, walls, etc.) for maximum efficiency and functionality. It includes analyzing section sizes, shapes, materials, and configurations to optimize performance while meeting safety standards and design requirements.
Conducting soil tests helps in assessing the soil’s bearing capacity and characteristics. This information guides the selection of suitable foundation types (shallow or deep foundations like footings, piles, or mats) to ensure the structure’s stability and longevity.
This involves designing crucial structural elements or connections that play a pivotal role in ensuring stability, safety, and architectural aesthetics. It addresses aspects such as beam-column joints, foundation connections, or load-bearing elements crucial for the building’s integrity.
Here, detailed technical specifications are developed, outlining the structural requirements, materials to be used, construction methods, quality standards, and other necessary details. These specifications are included in the tender documents for contractors bidding on the project.
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We continuously embrace new challenges to support our clients in their projects. Working collaboratively, we approach projects of all sizes with creativity and dedication.