Open-engineered commercial construction refers to the use of pre-engineered or prefabricated building components in the construction of commercial buildings. This type of construction typically involves the use of standardized parts that are manufactured off-site and then assembled on-site to form the completed building. This approach can be more cost-effective and efficient than traditional construction methods, as it allows for more precise planning and faster assembly. Additionally, open-engineered commercial construction can provide greater flexibility in terms of design and can be easily adapted to a variety of different building types and uses.
In open-engineered commercial construction, the design of the building is created using computer-aided design (CAD) software, which allows for precise planning and coordination of the various building components. The individual parts of the building, such as the walls, floors, roof, and other structural elements, are then manufactured off-site using a variety of materials, such as steel, concrete, and wood. These parts are designed to fit together precisely and can be easily assembled on-site to form the completed building.
What are the main advantages of open-engineered commercial construction?
Open-engineered commercial construction offers greater flexibility in terms of design. Since the building components are standardized, they can be easily adapted to a variety of different building types and uses. This allows for the creation of custom buildings that can be tailored to the specific needs of the client. Additionally, open-engineered commercial construction can provide greater design freedom and allow for the creation of unique and innovative building designs.
John Sage took advantage of this technique with his Aurora Apartments development, to design flexibility, to allow bigger rooms, especially the open living rooms, large wall-to-wall and floor-to-floor windows and a much greater variety of apartment sizes. It’s more like creating a vertical village, rather than the typical apartment building. This design flexibility required a different type of construction technique as opposed to the vast majority of “square boxes’ built around Melbourne.
How does open-engineered construction allow for greater flexibility in building design?
Open-engineered construction allows for greater flexibility in building design because it uses standardized building components that can be easily adapted to a variety of different building types and uses. Because the components are pre-engineered and prefabricated off-site, they can be easily modified to fit the specific needs of the building project. This made it the perfect solution for John Sage’s Aurora development. For example, the size, shape, and configuration of the building components can be adjusted to create custom buildings that are tailored to the specific requirements of the client. Additionally, the use of standardized components allows for greater design freedom and allows for the creation of unique and innovative building designs. Overall, the use of open-engineered construction methods allows for greater flexibility in building design and enables the creation of custom buildings that are tailored to the specific needs of the client.
Open-engineered commercial construction is a widely used method of construction that can be applied to a variety of different building types and uses. Some examples of buildings that may be constructed using this method include office buildings, warehouses, retail stores, schools, and other commercial structures. This type of construction can provide many benefits, such as cost savings, faster construction times, and greater design flexibility.