Building Information Modeling

Building Information Modeling (BIM) is a procedure that promotes how architects and engineers design and construct buildings. With many BIM authoring tools, architects can formulate a digital 3D model of the building, authorizing them to detect a representation.

BIM 3D Model

BIM 3D Modeling

BIM Family Creation

BIM Family Creation

BIM Coordination & Clash Detection

BIM Coordination & Clash

Detection

BIM-Online-Training-Implementation

BIM Online Training &

Implementation

BIM 4D Construction Simulation

BIM 4D Construction Simulation

Building Information Modelling: A Reliable Designing Process for Buildings

Building Information Modelling (BIM) refers to creating and managing digital information about a built asset such as a building, bridge, highway, or tunnel. It is established on an intelligent model and enabled by a cloud platform. BIM integrates structured, multi-disciplinary data to produce a digital representation. It is based on lifecycle, from scheming and design to construction and procedures, and is a workflow process. BIM allows users to understand relationships between spaces, materials, and different systems within a physical structure. BIM software can be used for each step of the process, from planning to design to construction.

Working on Building Information Modeling

Building Information Modeling (BIM) is a procedure that promotes how architects and engineers design and construct buildings. With many BIM authoring tools, architects can formulate a digital 3D model of the building, authorizing them to detect a representation. It will help how it looks and how it will operate. The 3D representation can comprise numerous pieces of information and data.

Role of Building Information Modelling

Through BIM, architects and subcontractors evaluate and analyze the materials and costs required to complete the project. Every time the architect changed the design, someone had to recalculate. Before architects started using BIM, people were more error-prone. Minor miscalculations can cause problems and serious shortages, leading to delays and unexpected costs. BIM software design greatly reduces this problem by providing a single source of information and making it available to all stakeholders.

Types of Building Information Modeling

There are dissimilar types of building information modeling.

  1. Structural Building Information Modeling
    Civil engineers use Structural Building Information Modeling to support over 90 different steel, concrete, timber, and aluminum codes. It is also helpful to provide numerous features such as Analytical Modelling, Building Planner, Autodrafter, Physical Modelling, Advanced Concrete, Slab Design, Earthquake Mode, etc. 
  1. Geographic Building Information Modeling
    Geographic Building Information Modeling qualifies for the graphical understanding of the designing and building process. It is based on geographical conditions when a project is set to occur in an area and provides designers with accurate and factual information. It also influences a structure’s size, orientation, and even construction materials.

3. Precast Concrete Building Information Modeling
BIM enables simple and immediate planning of complex precast parts with shop drawing technology. It automatically produces reports, checks for collisions, and calculates numbers of parts, concrete volumes, and steel weight. You can bring out any conceivable geometry and high-tech factors in the highest quality, no matter how difficult.

4. Concrete Building Information Modeling
BIM is now leveraged for accurate, comprehensive, and constructible parametric modeling for component-oriented concrete design and plan. Foundation drawings are delivered using assigned foundation configuration, general detail, and title blocks.

5. Construction Management Building Information Modeling
BIM models assist construction techniques and construction planning. It is also helpful to evaluate cost and feedback, fabrication, and facilities management. Companies can now have better construction cost estimation by just evaluating the model. Both side groups can properly visualize the project without having it constructed.

6. MEP Building Information Modeling
BIM gives engineers, designers, and contractors in the mechanical, electrical, and plumbing (MEP) fields to design building systems in their special discipline. These solutions and techniques align the design, modeling, documentation, and construction in harmony. The correct software can develop data-rich MEP BIM models of the numerous MEP systems and achieve coordination tasks.

Extended Benefits of Building Information Modeling

One of the biggest benefits of BIM in the industry is the collaboration between designers, owners, and builders. An evolution from file sharing to real-time collaboration in the cloud with new, creative, and modern technologies available in the industry. That means the only source of truth. There are additional Building Information Modeling benefits that we practically imply

1. Comprehensive Visualization Tools
Architects can visualize the building in basic 3D dimensions such as height, width, and depth. But BIM also helps us perceive a building based on how long it will take to finalize each element (4D) and how much it will amount to at every stage (5D).

2. Rapid Project Completion
It takes minimum time for us to design a building. That means starting the formation and construction process without wasting time. Moreover, the design is always a database. That evolves and is leveraged to make more knowledgeable decisions earlier in the design process.

3. Promising Communication
Everything is shared and kept in terms of truth. That means that all designers on the team can see the latest drafts and document changes. Eliminate confusion. You can quickly invite subcontractors and clients to collaborate on your project. That allows experts such as electrical engineers to work closely with each other even if they cannot meet with us in person.

4. Lower Cost
As this process is completed in minimum time, so less amount is paid. You get quick results after investment as well. Contractors also identify mistakes before construction starts, reduce mistakes during the construction process, and minimize the risk of unexpected repair costs later on.

5. Mathematical Environmental Impact Analysis
BIM software can display a building in all six dimensions, which calculates the building’s environmental impact over time. That helps us find the most energy-efficient substances and beneficial regenerative design features.

6. Higher Quality Results
Important designs are documented and calculated through advanced methods. Hence quality in the design and construction process is improved. Contractors detect where every element needs to go for the building to operate to get the maximum efficiency.

7. Easier Building Management
Using BIM, we can identify the model in a seventh dimension called the lifecycle facility management view. This display shows anticipated operational costs after its completion. It enables us to make wise design decisions that will lead to greater cost savings and simpler building sustenance for you in the future.

Always Ready to Serve You!

These are a lot of Building Information Modeling benefits. BIM technology impacts nearly every graphic design, construction, and maintenance step. For this reason, our company uses this procedure for every project, especially if you want to design a future-proof building. We greatly improve the design and decision-making process. This technology enables our designers to produce the greatest quality buildings for our clients across several industries. Our BIM system provides a project from the outset, with a-greater control and precision to project members. They can manage more efficiently some variables like cost, quality and time. We are happy to tell you that there is a threefold advantage for engineers, contractors, and owners.