Why ReynoArch ACP is best cladding option for Tropical Areas in India?
Living in tropical locations could be a little tough on your exterior building. We look at the factors that make ReynoArch ACP the best cladding alternative to deal with the extreme weather conditions common in tropical regions.
The Indian climate of India is thought to be tropical. For most people, the term “tropical” is believed to be prone to all year round rainfall and the extreme heat of summer, and hot and humid conditions. Unpredictable weather conditions like these can cause damage to any exterior part of the structure. The people who live in areas with coastal zones of India have to deal with this issue regularly.
If you’ve ever visited Mumbai, many buildings have cracked or blacked-out surfaces. Cladding materials like tiles, slabs and bricks are prone to breaking cracks, corrosion, and staining.
The solution is with ACP Sheets, the perfect solution to deal with extreme weather conditions in tropical regions. Let us go over in detail the way ReynoArch ACP tackles such conditions;
There is no Pain in the Rain for ReynoArch ACP.
Rains can be the most annoying thing for building materials, such as cladding. Materials like cement, stone paint, wood or even stone are easily susceptible to moist surfaces. In cases of tiles, their adhesive can become loose and cause leaks.
ReynoArch ACP Sheets, on the contrary, are waterproof and designed to withstand any rain that falls all through the year. They are also made to be extremely tightly, thereby preventing any possibility of leakage.
Humid not so Shy to ACP Sheets
There is nothing worse than humidity and the additional sweat that goes with it. It’s the same with your home construction. High humidity brings excessive moisture, leading to your exterior becoming rusty or corrosive.
This is not a problem for ReynoArch ACP Sheets since, as the primary ingredient, aluminium is non-corrosive and can withstand any humid temperature.
Summer Safety with ReynoArch’s ACP
The summer heat can be a nagging problem as rain can be to materials such as bricks and cement. Heat can alter the expansion capacity of materials and lead to cracks in the joints and the material.
ReynoArch ACP sheets are made to be highly resistant to up to 600°C. Aluminium is highly resistant to heat, creating ACP Sheets the most optimal option for those who live in extreme heat conditions.
Protect Yourself from UV Rays with ACP Sheets
Areas that are tropical around the equator are more likely to be prone to a greater quantity of harmful UV rays. The high levels of UV Rays can alter the chemical and physical properties or the structure of vulnerable substances.
ReynoArch ACP Sheets have been processed using PVDF (polyvinylidene fluoride) resin with UV-resistant properties. The PVDF is then sprayed on ACP Sheets, thereby providing effective UV resistance.
Building Insulation using ReynoArch ACP
So far, we’ve discussed the impact of weather conditions on the outside of your house, but what type of problem do you experience when you are inside?
In summer, the inside of your home can become extremely hot if your exterior material is reacting to heat. If you’ve got cracks in the exterior of your home, it may cause water to squeeze through the cracks in the house and ruin the walls.
All of this could be easily prevented by installing ReynoArch ACP Sheets, which absorb heat radiation and make the interior of your building much cooler. They also offer protection from weather-related hazards such as rain, heat, ultraviolet rays, and wind. ReynoArch ACP is highly well-constructed so that they do not allow for breakage or cracks. They also provide an acoustic barrier protecting the occupants from outside noise pollution. Most people are prone to waste lots of money by focusing on the cladding solution based solely on appearance and features while overlooking the advantages of weather protection. By using ReynoArch ACP, you get top-quality aesthetics and are protected from weather-related dangers. Do not settle for less, and go for the best by using ReynoArch ACP.