Glass Fiber Reinforced Gypsum (GFRG): A Modern Solution for Efficient Construction

all about Glass Fiber Reinforced Gypsum

What Is Glass Fiber Reinforced Gypsum?

What Is Glass Fiber Reinforced Gypsum?

Mainly the structures of modern buildings are made of different types of materials. Regardless of whether you are a builder, architect, engineer, or contractor, it is extremely important to know the nuances of the building materials used popularly.

The knowledge of different types of construction materials, together with the details of their properties and their various uses for different purposes, act as an important resource in the hands of the builders in obtaining savings in the cost of construction.

In addition to material savings, the precise use of materials results in better structural strength, aesthetic appearance, and functional efficiency. In this article, we will discuss one of these building materials, popularly called “GFRG,” which stands for Glass Fiber Reinforced Gypsum.

What is the GFRG Panel?

What is the GFRG Panel?

GFRG, short for Glass Fiber Reinforced Gypsum, or glass fibre reinforced gypsum, is a material used in modern construction. GFRG panels, also known as fast walls, are a type of glass reinforced gypsum board. These construction panels are made of gypsum plaster, which is calcined and then reinforced with glass fibers.

It was first invented by the GFRG Building System Australia in 1990 for the purpose of building large-scale buildings. These panels have now found their application in India and other developing countries.

The typical dimension of the GFRG panel is generally 12 m long, 3 m wide, and 0.124 m deep. These panels consist mainly of Gypsum, glass fiber, concrete slurry, and chemicals, such as water-repellent emulsion.

GFRG Panel Classification

GFRG Panel Classification

Class 1: Water-Resistant Class:

Water-resistant Glass Fiber Reinforced Gypsum panels, a form of glass fiber gypsum board, are used to build external walls in wet areas, where water resistance is of prime importance. In addition, this variety of GFRG panels is used in the formwork of floors or walls for filling concrete.

Class 2: General Grade:

General-grade GFRG panels can be used for structural and non-structural applications in dry areas. These types of panels are generally not suitable when it comes to building external or internal walls. They are not recommended for building formwork for walls or floors.

Class 3: Degree of Partition:

Partition-grade GFRG panels are best suited for building non-structural internal partition walls. This type of GFRG panel is recommended only for dry areas.

Applications of The GFRG Panel In Civil Construction  

Applications of The GFRG Panel In Civil Construction  

Use of the GFRG panel in the construction of houses

#1. Load-Bearing Walls:

Load-Bearing Walls

One of the most common applications of GFRG panels is seen as load-bearing structures in buildings. When the cavities inside the GFRG panels are filled with concrete, the compressive strength of the panels increases.

In addition, when reinforcement bars are introduced, the panel’s ability to withstand lateral loads is also enhanced. As of now, the use of these load-bearing structures in construction is the most suitable option for buildings with multiple floors.

For the construction of a one- or two-story building, the cavities can be filled with an alternative structural material, such as quarry powder, mixed with 5% cement.

However, the filling protocol is recommended for every third or fourth cavity and in all joints or opening locations. Preferably, the filling should be done with M20 concrete. In addition, it must be reinforced with an 8 mm reinforcement bar.

#2. Horizontal Floor and Roof Slabs:

Horizontal Floor and Roof Slabs

The glass fiber reinforced gypsum wall panels can also be used as an intermediate floor or slab in combination with reinforced concrete structures. The strength of these GFRG slabs can be significantly improved by incorporating it into reinforced concrete micro-beams.

To provide micro-beams that are incorporated, the upper flange of the respective cavity is trimmed and removed so that the minimum 25 mm flange remains protruding from both ends.

The GFRG floor and slab panels are cut to the required size and marked with notations. First, the RCC wall joints, cavities, and horizontal beams are filled with concrete.

Subsequently, a wooden plank with a width of 300 mm to 450 mm is provided to extend between the supporting walls wherever the built-in microwaves are present. Finally, the roof panels must be lifted by the crane so that the panel can float perfectly horizontally.

Each of the GFRG’s ceiling panels is placed over the wall so that a minimum space of 40 mm is provided. This is done to allow vertical rods to be placed continuously from one floor to the next and to provide a monolithic RCC structure within the fast wall.

#3. Partition Walls:

Partition Walls

GFRG panels can also be used as filling partition walls in single and multi-story buildings. The cavities of the GFRG panels can be filled properly.

These panels are used as partition walls, while these panels can also be used for cladding in industrial buildings or sports facilities. Likewise, they can be used as composite walls or security walls.

Disadvantages of The GFRG Panel

Disadvantages of The GFRG Panel

  1. One of the gfrg panels disadvantages is that during the construction process, more space is required for the crane to move.
  2. As the design of the GFRG panel is complicated, it can make the construction process less economical.
  3. To install the GFRG panels, highly qualified and experienced labor is required.
  4. GFRG panels must be handled with great care during the transportation and assembly process.
  5. Cutting GFRG panels on-site requires specific machines.
  6. The whole procedure involved the assembly and placement of the GFRG panels is a bit complicated and can be difficult to follow.
  7. GFRG panels cannot be used for the construction of walls with circular or higher.
  8. The panels need to be stacked neatly to avoid abrasion.
  9. Free space is limited to 5m for residential buildings.

Conclusion

Construction projects are limited by time constraints. It is up to the contractor to innovate and present new material projects to overcome this restriction, remaining faithful to the specifications of the plans.

The manufacture of glass fibre reinforced gypsum panels from the raw material of Gypsum, namely natural Gypsum, mineral Gypsum, phosphor Gypsum or chemical Gypsum, with a purity of more than 90%, implies less energy compared to conventional construction materials that consume a lot of energy, such as bricks, concrete, etc.

In addition, due to the increased efficiency of the carpet area and less time for construction, The GFRG system has proven to be very effective in all aspects of construction, especially in time and cost.

FAQ: Glass Fiber Reinforced Gypsum (GFRG)

What is Glass Fiber Reinforced Gypsum (GFRG)?

Glass Fiber Reinforced Gypsum (GFRG), also known as glass fibre reinforced gypsum, is a building material used in modern construction. It consists of gypsum plaster reinforced with glass fibers, forming construction panels known as GFRG panels or fast walls.

When and where was GFRG first invented?

GFRG was first invented by the GFRG Building System Australia in 1990 for constructing large-scale buildings. It has since been adopted in various countries, including India and other developing nations.

What are the typical dimensions of a GFRG panel?

The typical dimensions of a GFRG panel are 12 meters in length, 3 meters in width, and 0.124 meters in depth.

What materials are used to make GFRG panels?

GFRG panels are made from gypsum, glass fibers, concrete slurry, and chemicals such as water-repellent emulsion.

How are GFRG panels classified? A

GFRG panels are classified into three categories:

  • Class 1: Water-Resistant
  • Class 2: General Grade
  • Class 3: Degree of Partition

What are the applications of GFRG panels in construction?

GFRG panels are used for various applications, including:

  1. Load-bearing walls
  2. Horizontal floor and roof slabs
  3. Partition walls
  4. Cladding in industrial buildings and sports facilities
  5. Composite walls and security walls

What are the benefits of using GFRG panels?

The benefits of using GFRG panels include cost savings, improved structural strength, aesthetic appeal, functional efficiency, and faster construction times.

What are the disadvantages of using GFRG panels? The disadvantages of using GFRG panels include:

  1. Need for more space for crane movement during construction
  2. Complex design making construction less economical
  3. Requirement for highly qualified and experienced labor
  4. Need for careful handling during transportation and assembly
  5. Requirement for specific machines to cut panels on-site
  6. Complicated assembly and placement procedure
  7. Unsuitability for circular or high walls
  8. Limited free space to 5 meters for residential buildings

What is the environmental impact of GFRG panels?

GFRG panels are environmentally friendly as they are made from gypsum, which requires less energy to manufacture compared to traditional construction materials like bricks and concrete. This makes GFRG an efficient and sustainable option in construction.

Why is GFRG considered effective in construction?

GFRG is considered effective in construction due to its high efficiency, cost-effectiveness, and ability to save time. It also improves the carpet area efficiency and reduces the overall construction time compared to conventional materials.

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