Are you looking for innovative polycarbonate facade solutions in South Africa? Discover the latest trends, technologies and designs available in the industry and how they can benefit your building projects.
Facades have come a long way in terms of design, material, and technology. In this article, we will explore the importance of building facades and provide tips on how to create a statement piece for your property.
Building facades are the face of a property. They provide a visual representation of the building’s purpose, style, and design. The facade serves as an invitation to the property, welcoming visitors and guests.
From large-scale commercial facades to residential constructions, facade systems are being developed with a focus on sustainability that can deliver both energy efficiency and architectural beauty. Danpalsa is taking the initiative to be mindful of building facade systems with the goal of energy efficiency, sustainability and cost-effectiveness, while still offering a range of aesthetically pleasing facade options.
By investing in these forward-thinking facade systems, we can ensure that our built environment is becoming more efficient and ecological over time.
Southern Africa is home to a wide range of facade solutions that cater to different needs and preferences. Here are some of the most popular types of facades of a building:
Frame Facades
Framed Facades are a cost-effective, good-looking way to upgrade any building while appreciably increasing energy efficiency. Our framed facades can be designed and installed as a single or double-layered dry-glazed daylighting system.
Curtain Wall Facades
This is a popular choice for commercial buildings. They are made up of a framework of profiles and infill panels.
UV Protection Facade Solutions
An innovative way to reduce the amount of heat coming into a building, while still allowing natural light in. Facade systems work by diffusing, reflecting or absorbing sunlight before it enters the building.
What are the most common materials used in facade systems in South Africa?
The most common materials used in facades include glass, metal, stone, and wood.
Are facade systems energy-efficient?
Yes, many of the latest facade solutions in South Africa are designed to be energy-efficient, helping to reduce energy costs and increase the sustainability of the building.
How do facades impact the value of a building in South Africa?
By improving the overall appearance and functionality of a building, facade solutions can increase its overall value and appeal, making it more attractive to potential buyers or renters.
Are there any innovative technologies available when it comes to facades?
Yes, South Africa is at the forefront of innovation in the facade solutions industry! Some of the latest technologies available in the country include smart glass, building-integrated photovoltaics (BIPV), and automated facade systems.
A facade can impact the curb appeal, energy efficiency, and overall look of the structure. Sustainable facade systems are available that use less energy and have a smaller environmental footprint.
When designing a statement building facade, consider the tips above or get in touch with Danpalsa! We are here to help!
Polycarbonate facades have allowed architects to elevate the aesthetic appeal and reduce the environmental impacts on buildings, be they residential, commercial or industrial. There is nothing lightweight about these facades in terms of strength and versatility. Polycarbonate is a strong material that protects against vandalism and damage from heavy impact, while its insulation qualities save on heating and lighting costs.
Polycarbonate is a polyester that combines carbonic acid and bisphenol. It is a class of polymers with carbonate linkages and excellent characteristics such as extreme toughness, high heat capabilities and optical clarity.
Translucent polycarbonate facades are light-glazing panels used as exterior cladding. It protects structures from moisture, erosion and weather damage. The polycarbonate facades are available in different colours and opacities and contain microcells that create naturally diffused light. The translucent panels have air gaps that provide natural ventilation to protect buildings from dampness, leaks and weather damage.
Polycarbonate facades protect against harmful UV rays by ensuring maximum thermal conduction. Buildings clad in these panels enjoy lower energy bills because the sun’s rays are deflected and used to illuminate and heat buildings, creating pleasant indoor environmental conditions.
When designing a building clad in a translucent polycarbonate facade, architects include design details that allow maximum light to penetrate the premises. While the design eliminates the use of secondary supporting frames, it cannot compromise the integrity of the building.
While the versatility of polycarbonate allows architects to meet design challenges, the strength of the material provides effective insulation against cold, heat, and UV radiation, reducing energy supply costs.
Polycarbonate is a bulletproof material that is 200 times stronger than glass and 30 times as strong as acrylic. Translucent polycarbonate cladding is laminated and layered, enabling it to absorb heavy impact. It is shatter-proof, making it safe from hail damage.
Double-skin polycarbonate facades keep buildings cool in summer and warm in winter, providing substantial savings on energy costs. A gap between the double skins ensures constant airflow that keeps elements like moisture build-up at bay and eliminates expensive damp-course remedies. The prefabricated panels arrive on site ready for installation, cutting labour costs and time. All these efficiency characteristics are plus factors for both architects and their clients.
Wall cladding systems offer unique advantages, improving appearance, efficiency and performance. Another advantage is the choice of colours and designs, unmatched in the building industry. Architects can select from a range of designs and creatively play with light. Polycarbonate façade textures offer an array of design options for interior and exterior ceilings and walls.
The performance of polycarbonate facades depends on the thickness and weight of the panels. Panel thickness depends on the type of structure they are cladding. Thicknesses between 16mm to 35mm provide quality thermal properties.
Concealed joints hide unsightly building elements, protect users from harmful UV rays, and ensure maximum thermal conduction. The built-in snap-lock connection systems resist water and air from entering the building, while the durability of polycarbonate withstands the impact of hail and other intrusive weather elements. Polycarbonate panels expand and contract according to temperature fluctuations, offering greater flexibility because they are unlikely to break or crack. Architects can also make the most of polycarbonate panel colour ranges and thicknesses to achieve ultimate design levels and to improve the environmental living conditions of the people who use the buildings.