Using sustainable materials for house decor means choosing sustainable and eco-aware products. They are used to decorate living spaces by minimizing the negative. Impact on the environment. Practically supporting a green and energy-efficient lifestyle. These materials come from natural and renewable resources and what makes them unique is that they are either recycled or upcycled, which maximizes the possibilities of reuse and minimizes waste. The materials that are given in the following are only an example and an inspiration for many projects to occur.
Bamboo
The sustainable quality of bamboo is due to its possessing of the two fast-growing and self-regenerating properties therefore shortening the crop cycles, without replanting after each harvest. Additionally, the natural flexibility and higher tensional strength are structural benefits found in it. However, it has to be specifically treated to keep bacteria, bugs, and fungi from attacking it. Ideally, it should also be from those managed sustainable forests and should be procured from nearby places with the view to minimizing shipping emissions.
Cork
Barks are harvested from the outer layers of this tree; however, this tree regenerates itself and hence the harvesting of such material is sustainable. Also, it is no accident that it is a very versatile material for interior designers in Dubai. Its hydrophobic, fire-retardant, and also insulating (heat, cold, and sound) nature makes it suitable for use on walls, ceilings, and floors.
Wood
While wood ties atmospheric CO2 to its natural bonds in the form of mass, a larger part of the carbon-saving is achieved by using less concrete and steel as they have a smaller carbon footprint than wood. Furthermore, the wooden interior does not merely have significant advantages for psychological health. Ideally, the wood ought to be harvested from forests and manufacturers with sustainable projects on the go, as well as energy efficient. The most effective way is to take advantage of the reclaimed wood whenever necessary and utilize the carbon sequestration of the wood for the longest period.
Concrete
The high thermal mass of concrete makes it easier to heat and cool a building but the material itself the manufacturing of the binder, portland cement, is additionally having a very big carbon footprint. As an example, instead of cement, some proportion of cement can be substituted with other cementitious materials. g. concrete (like fly ash or slag) mixes or using prevailing concrete technologies to sequester CO2 may assist in decreasing the embodied carbon of a project. Hence, another way that is probably more effective to limit the concrete’s environmental impact is to minimize the quantity needed. This also refers to the building structure design which requires working with a structural engineer all through the project to optimize the concrete amount needed in the structural system.
Brick
In the category of building materials. Bricks have a long life span, can be recycled and reused, and can create an energy-efficient. Building envelope as brick has a high thermal mass. Due to the nature of lead being completely non-reactive, it doesn’t need extra tinny coating either. Some claim that this has a positive impact on the quality of indoor air. But more and more attention should be paid to the environmental issues. That stems from the extraction of finite raw materials. Which are used to manufacture new bricks as well as fossil fuels. Which are mostly used fuels in most brick kilns.
Glass
Several such conditions associated with glass need to be taken into account. Moreover, it provides many positive physiological and psychological outcomes of the availability of abundance. Sunlight and the opportunity to be in the natural environment. Therefore, when provided without proper consideration the glass performs exactly oppositely. During the summer by absorbing solar heat gain, and in the winter by transmitting heat loss and conduction.
Even though glass performance has improved over the last few decades. Specifying glass should be subjected to criteria like U-value. Solar heat gain, and visible transmittance, make the home both energy-efficient and comfortable for dwellers.