033 480 98 781
info@360bimsolutions.com

360BIM Solutions offers Architects, Engineers, General Contractors, Specialty Contractors, Builder, and Retailers a comprehensive range of expert and high-quality 3D modelling services. From LOD 100 to LOD 500, our skilled team of professionals provides 3D BIM services in accordance with standards. Our collective knowledge in architecture, structure, Mech, Electrical, Plumbing, and fire pro- taction systems has been simplified to serve a variety of industries, including airports, hotels, residential communities, hospitals, schools, and the commercial, industrial, and industrial sectors. We offer complete (Architecture, Structural, Mechanical, Electrical, Plumbing, and Fire Protection) Modelling services.

BIM (Building Information Modeling) is a process that involves creating and managing digital representations of physical and functional characteristics of a building or infrastructure project. It is widely used in the architecture, engineering, and construction (AEC) industry to design, construct, and operate buildings more efficiently and effectively.

Geometry Creation: The building’s physical elements are created in the BIM software as 3D objects, including walls, floors, roofs, doors, windows, and other building components. These objects are intelligent and carry information about their properties, such as dimensions, materials, and classification.

Spatial Relationships: BIM models ensure that objects interact correctly with each other, maintaining real-world spatial relationships. For example, doors should fit within walls, windows should align with openings, etc.

BIM modeling in 3D refers to the creation of a digital 3-dimensional model that represents the entire building or infrastructure project, including its geometry, spatial relationships, materials, and other relevant information. This 3D model serves as a central repository of data that various stakeholders can access and collaborate on throughout the project lifecycle.

Initial Setup: At the beginning of the project, the project team defines the scope and requirements. They choose the appropriate BIM software platform (e.g., Revit, ArchiCAD, or others) that supports 3D modeling capabilities.

Information Integration: Apart from geometric data, BIM models also integrate non-graphical information, such as cost data, performance attributes, schedules, manufacturer details, and maintenance information. This provides a holistic understanding of the project and facilitates better decision-making.

Collaboration and Coordination: BIM allows multiple stakeholders, such as architects, engineers, contractors, and owners, to work collaboratively on the same model. This promotes coordination and reduces conflicts between different disciplines.

Clash Detection: BIM software can automatically detect clashes between different building elements, such as structural elements conflicting with mechanical systems. Identifying and resolving clashes in the virtual environment helps prevent costly on-site conflicts during construction.

Visualization: 3D BIM models enable realistic visualizations and walkthroughs, aiding in design evaluation, client presentations, and marketing.

Construction Documentation: The BIM model serves as the basis for generating construction drawings and other project documentation, ensuring that all plans and specifications are consistent.