One of the most critical tasks that any construction must complete is the installation of an effective fireproofing system. Steel is a prominent building material nowadays because of its advantages in construction. As a result, intumescent paint is now the first option used to safeguard buildings and people, together with other solutions, to ensure the protection of property assets and people’s lives.
Why is intumescent paint regarded as the most effective fireproofing solution for steel structures nowadays?
Steel is employed in a wide range of constructions, including apartments, schools, hotels, and modern architecture. However, steel has a limitation that it must be awakened which is it can only be heated to temperatures of 500 degrees Celsius. As a result, the paint-based fireproofing method for steel structures is regarded as the most effective method for enhancing the safety of existing structures.
How many fireproofing methods of steel structures and features of each method?
There are two types of fire protection in a building: active fire protection and passive fire protection. Active fire protection is concerned with detecting and extinguishing a fire, whereas passive fire protection is concerned with its containment.
Active Fire Protection (AFP) is the practice of safeguarding a building or structure against fire using methods that rely on the action of moving parts. These systems can be automated or manually handled, but they all require some effort to function well.
In the meantime, Passive Fire Protection(PFP) is a crucial component of any building’s structure. It serves as a fire prevention measure and encompasses all building approaches that enable a form to withstand a fire for a specific period of time. There are two sorts of fireproofing solutions in this approach:
- Solutions for structural protection, such as intumescent paints
- Foams, sealants, and other technologies.
Intumescent paint – the ideal solution among various fireproofing methods
The components include Epoxy, Poly Phosphor, and Silicone are the first notable properties of this fire that appear as a primary factor in its popularity. When fire accidents occur, these components are utilized to lower the heat of the fire and the amount of gas released.
Another benefit of intumescent paint that impacts steel structures is its ability to endure a fire with the highest temperature up to 1000 degrees Celsius in less than 3 hours. As we all know, when a fire occurs, time is valuable; the more time we have, the more problems we can solve to protect lives and property.
The process of applying intumescent paint as a fireproofing approach for steel structures
It is normally necessary to follow the recommended steps below, as well as the official process designed and proceeded by VIVABLAST – the leading provider of fireproofing and protecting solutions for not only steel structures but any kind of construction.
The following 10 steps are performed for applying fireproofing in mechanical equipment:
- Step 1: Surface Preparation
- Step 2: Inspection after surface preparation
- Step 3: Finish primer coating in accordance with the primer manufacturer’s requirements.
- Step 4: Products mixing properly for the application
- Step 5: Application process & install mesh reinforcement
- Step 6: Build up thickness uniformly & cover the mesh application
- Step 7: Thickness controlling during application to get the thickness requirement
- Step 8: Final thickness inspection with drilling and thickness gauge
- Step 9: PFP coating surface preparation properly for finish color paint coating application
- Step 10: Stripcoat & finish yellow PU coating application as per client’s required specification
In particular, every step in this process will be directly completed by the VIVABLAST team with high technology experts. They have been conducting numerous fireproofing systems with excellent results, and get high evaluations among many service providers.
With the information given, hopefully, you can get more useful ideas about fireproofing methods which have a crucial role for all buildings.