PVC is quickly replacing traditional building materials like wood, metal, clay, and concrete in a variety of ways. Being flexible, versatile, cost-effective, and durable, it is popular in building and construction. It can be used in drinking water and wastewater pipes, flooring, window frames, roofing, wall panels, cables, and a variety of other appliances. That is because it is lighter, less expensive, and offers many advantages as compared to other traditional materials.
PVC plays a major role in sustaining and maintaining the quality, comfort, and safety of modern lifestyles. It is cost-effective, eco-friendly, and helps with ‘sustainable development’ in conserving natural resources for our planet. PVC can be used in a number of fields and essential services like housing, transportation, electronics, medical devices, and even consumer products. Here are some reasons that make PVC a sustainable building material:
- Widely used material
PVC is a synthetic material derived from natural resources (oil and salt) and is widely used in everything you can think of. It is not very different from other materials but it possesses a lot of natural advantages as well as being eco-friendly and sustainable. One of the areas where PVC has become the material of choice is in homebuilding. It can be used as panels and sheets to make homes more aesthetically pleasing and resilient.
- It has a low carbon footprint
The amount of carbon dioxide emissions that most factories and industries give out when manufacturing materials for household and commercial use is huge. This is a very important factor when it comes to global warming. PVC has proven as a material with minimal environmental load as compared to other materials and has a lower carbon footprint. The way it is manufactured requires only around 80% of energy and thus, it has lower CO2 emissions. PVC sheets also produce a large amount of energy through lower thermal conduct – this can cut down energy consumption for heating and air conditioning.
- It is durable and recyclable
Most plastics are simply used and thrown away, but in reality, plastics rarely rust or corrode. PVC is an exceptionally durable plastic and is used in water supply and sewage pipes, which don’t need to be replaced for over fifty years. More than half of the PVC products are durable, strong, can weather any condition and temperature, and have service lives of over fifteen years. PVC’s resistance to abrasion, light weight, and high mechanical strength are a huge advantage to it being used in construction and building applications.
- Easy to install
PVC can be shaped, cut, welded, and joined easily in a variety of sizes and styles. Being lightweight and flexible, it can be handled and installed easily without any fuss or effort. PVC is also highly popular due to its cost-effective PVC sheet price. It is durable, and low maintenance and is ideal for projects and cost-performance advantages.
- Safe to use material
PVC is non-toxic, it is safe to use and handle, and can be used at home around your family. PVC products are fire resistant and are self-extinguishing, so even if they burn, they will stop immediately which makes it ideal to use in residential and commercial buildings. Being a good insulator, it does not conduct electricity and can be used for insulation sheathing for cables – it is also versatile and designers have a high degree of freedom when designing and developing new products like scaffolding billboards, window frames, fresh and wastewater systems, cable insulation, and other interior design applications.
PVC does not rot and is incredibly useful for a range of purposes and constructions. Being an innovative material is it waterproof, extremely durable, and has a long lifespan. Above all, its affordable price and lower maintenance requirements make it ideal for homeowners. PVC is eco-friendly and sustainable and is tried and tested for a range of environments. Popular users include contractors, builders, and local homeowners, as they can pick the PVC sheets they want, depending on their color, texture, size, and thickness requirements.