
The rise of Building Information Modeling (BIM) has transformed the construction industry, offering an innovative approach to designing, planning, building and managing projects. BIM software is a tool for translating complex project visions into concrete reality. By merging technology and collaboration, they pave the way for an integrated approach to construction. We'll show you how to use them for your projects.
Key principles of BIM software
Concrete, precise modeling
Using BIM software means bringing your projects to life. How can we do this? Through the
numerical representation
characteristics and functions of building structures. This type of software is capable of providing highly detailed project information, such as :
costs ;
deadlines ;
materials ;
technical specifications.
The BIM software separates building components and then reconstructs them in a coherent virtual structure. Walls, columns, windows, doors, stairs... Each element is meticulously modeled to reflect its place and function in reality.
Decision-making made easier thanks to data
The data generated within the software can be extracted, connected or exchanged to facilitate decision-making at every stage of the building design process.
By manipulating information in the BIM software, construction professionals are able to explore and understand the behaviour of structural elements
before the start of construction
. The attributes associated with each component can even be programmed to
automate specific actions
bIM software can be used for a wide range of tasks, such as selecting appropriate materials or estimating costs. Another significant advantage of BIM software is its ability to create a variety of coherent views from a single building model. This feature improves visualization and understanding of the project for all those involved.
BIM: how to select the right software?
Types of BIM methods
Although there are no distinct categories of BIM software, there are two types of BIM methods:
open BIM : focused on interoperability and collaboration, it emphasizes the possibility of working between different software packages and with various players involved in the project;
closed BIM: based on the use ofa specific BIM software package throughout the project, it implies more limited integration or even the absence of compatibility with other tools - BIM data is then less accessible to external parties using different software.
Parameters to take into account
The BIM market offers a variety of software. To choose the one that's right for your project, you'll need to go through a careful assessment of your specific needs and the
functionalities
offered. Among the market leaders,
Tekla Structures
and Archicad stand out by offering a range of tools dedicated to modeling, coordination and collaboration within your projects.When you are about to choose a software package, several key aspects deserve your attention:
features;
theuser interface;
compatibility with different file formats ;
software acquisition costs.
Getting to grips with the software
Once you've selected your BIM software, it's time to familiarize yourself with its interface and tools. Start by creating a simple project incorporating basic architectural elements. Get to grips with the functions for drawing, manipulating and modifying objects.
BIM software: which professions is it for?
BIM is used by various professionals involved in the design and construction process. It can therefore be found in various sectors:
architecture: BIM solutions support architects throughout the design process, maintaining model consistency and providing information at an early stage of the project to meet customer requirements;
structural engineering: BIM improves the link between architectural design and details - engineers can streamline workflows by linking design to details and minimizing errors;
construction: BIM facilitates collaboration between stakeholders and provides an aerial view of the structure;
mEP (Mechanical, Electrical, Plumbing): BIM enables systems to be designed and estimated quickly and accurately;
infrastructure: BIM is used to integrate planning, design and construction, and to guarantee resistance to external conditions before construction - when creating large structures such as bridges, ports or freeways.
How to use BIM software
The use of BIM software spans the entire life cycle of a project. Here are the 4 main applications.
#1 3D modeling and collaboration
BIM software features allow you to create
architectural, structural and MEP elements
in three dimensions. This 3D modeling goes hand in hand with thecollaborative approach of BIM: the various stakeholders work together on a common model. The result? Real-time updates and conflict management avoid costly errors.
#2 Project management
BIM software simplifies project management by integrating the temporal (4D) and financial (5D) dimensions into models.
These options allow you to simulate the chronological progress of construction, identify potential conflicts and monitor expenditure in real time.
#3 Analysis and optimization
Theadvanced analysis capabilities of BIM software enable us to assess the energy performance, sustainability and safety of buildings, as well as simulate and optimize different scenarios to make informed decisions.
#4 Operation and maintenance
Even after the construction phase, BIM software continues to deliver value. Indeed, it is also used for operations and maintenance management, making it possible to monitor building performance, anticipate maintenance requirements and reduce costs over the long term.
Using BIM software is a unique opportunity to improve efficiency, cooperation and quality within the construction industry. By assimilating the essential principles and mastering BIM tools, you can change the way you approach your projects. BIM technology is shaping the future of construction, and as an informed professional, you can be at the forefront of this innovation.
Explore all aspects of the BIM approach!
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