It has an important place in modern architecture, both aesthetically and functionally. Silicone facade systemIt is preferred in various types of buildings, especially high-rise buildings and commercial structures.

What is a Silicone Facade System and How is it Applied?

It is a facade cladding method that brings together aesthetics and functionality in modern architecture. It is based on the principle of mounting glass panels to the building skeleton with silicone sealant. In this way, the exterior of the building gains a smooth and uninterrupted appearance.

The first step in applying silicone facade systems is to make a design plan that is suitable for the architectural structure of the building. At this stage, the dimensions and placement of the glass panels to be used are determined. Glass panels and silicone materials are selected according to the requirements of the project. Factors such as the type of glass, its thickness and color are important in terms of aesthetics and performance.

The carrier profile system is mounted on the exterior of the building. These profiles provide the necessary infrastructure for the safe fixing of the glass panels. The glass panels are carefully placed on the carrier profiles. They are fixed with silicone sealant. Silicone provides sealing and flexibility between the panels.

After the installation process is completed, the system is checked for leaks and durability. Necessary corrections are made to ensure that the system is fully functional.

Silicone facade system, gives buildings a modern and elegant look. It also offers a high performance and long-lasting solution. This system allows architects and engineers to develop creative and aesthetic projects.

Silicone Facade System Advantages and Areas of Use

It is an innovative solution that combines aesthetics and functionality in modern architecture. Many advantages make them the ideal choice for large-scale projects and high-rise buildings.

• Silicone facade systems, It gives buildings a smooth and modern appearance. The silicone sealants between the glass panels are almost invisible and create a seamless surface.
• These systems increase energy efficiency thanks to their superior heat insulation properties. Glass panels save energy by not letting the heat from the outside in and not letting the heat from inside out.
• It has high durability and is resistant to weather conditions, UV rays and chemical effects. In this way, it offers a long-lasting solution.
• Silicone sealants prevent cracking and deformation by providing flexibility against movements in the structure. This feature protects the structural integrity of buildings.
• These systems also provide advantages in terms of maintenance and cleaning. Glass panels are easy to clean and when silicone sealants need to be renewed, it is done in a quick and simple process.
• Skyscrapers and high-rise buildings are the most commonly used structures. These systems give such buildings a modern and aesthetic appearance.
• Commercial buildings benefit from its advantages. Such buildings attract attention with their attractive and modern appearance.
• It is also preferred in public buildings such as airports, hospitals and government buildings. These systems provide aesthetic and functional contributions to buildings.

Silicone facade systems, It offers advantages such as aesthetics, durability and energy efficiency. In this way, it offers an ideal facade cladding solution for various types of buildings.

How to Achieve Energy Efficiency with Silicone Facade System?

As one of the indispensable elements of modern architecture, it offers aesthetic and functional advantages. The most important of these is energy efficiency. It provides environmental and economic benefits by reducing the energy consumption of buildings.

One of its biggest advantages is that it provides superior heat insulation. Silicone fillings between glass panels minimize the passage of hot and cold air. In this way, the temperature balance within the building is maintained and the energy consumption of heating and cooling systems is reduced.

The glass panels used filter sunlight and control the amount of heat entering the interior. Low-emission (Low-E) glass in particular reduces the harmful effects of sunlight while allowing natural light to enter. This reduces air conditioning and lighting needs, saving energy.

Silicone facade system, also offers a great advantage in terms of air tightness. Silicone sealants provide perfect sealing between glass panels. In this way, cold or hot air from the outside cannot enter. The air conditioning of the interior is carried out more efficiently.

The high-performance glass and silicone materials used in these systems are long-lasting and durable. They maintain energy efficiency without losing performance over time. Thus, energy consumption is kept low and maintenance costs are reduced.

It requires minimum maintenance. Glass surfaces are easy to clean and silicone sealants do not lose their effectiveness for many years. This ensures energy efficiency and also ensures low maintenance costs.

Architects can design energy efficient and aesthetic buildings using these systems. These systems optimize the natural air flow of buildings and provide passive energy savings. For example, they can reduce air conditioning use by integrating with natural ventilation systems.

Silicone facade system, is an ideal solution to increase the energy efficiency of buildings. It minimizes energy consumption thanks to thermal insulation, solar control, air tightness and high-performance materials. In this way, it provides environmental and economic benefits and contributes to sustainable architecture.