Clay that is heated to a temperature lower than 950 degrees Celsius and given natural treatments in order to maintain the earth’s hygroscopicity, insulation, low radioactivity, and very strong thermal inertia are the components that make up this material. we offer the best services for construction Click here.
Take a look at these baked clay bricks in full size.
Take a look at the baked clay flooring in full size.
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A Face Of Fired Clay (Left)
There are a wide variety of applications for it in construction, including brick walls and enclosures, ceramic ventilated facades, vaults, flooring, tiles, and latticework. Because ceramic materials are very inert and stable, there is a high level of recycling potential for ceramic materials. In addition, the trash that is produced throughout the various stages of the material’s manufacture can be recycled and used again in the circuit for the processing of the raw materials.
Lime Mortar
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I use lime mortar for the plastering.
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Lime Mortar Used for The Interior Finish.
Lime has multiple uses in construction, including acting as a binder in mortars and providing a finish for plaster and facades. Because it requires less energy to produce, it can be seen as a more environmentally friendly alternative to cement.
In addition, during the carbonation process, the carbon dioxide that was produced during production is taken in, which results in a net reduction in the number of gas emissions. Another advantage of this material is that, unlike cement, it does not require the addition of any additives, which makes the production process much easier.
Lime mortars allow the passage of water vapor and are more flexible than cement, which prevents the emergence of cracks in the coatings. Regarding its qualities, lime mortars allow for the passage of water vapor and are more flexible than cement.
Because lime mortar hardens more slowly than cement mortar, its structural application (within brick or stone masonry) is more restricted as a result. This is one of the disadvantages of using lime mortar.
Polypropylene, polybutylene, and polyethylene
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The installation of polypropylene
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The Installation of polypropylene
The installations of homes are frequently the most neglected aspect of architectural projects, despite the fact that they have a significant impact on the surrounding environment and the construction’s ability to be environmentally sustainable.
The manufacture of PVC materials involves the use of biocidal components; as a result, these materials have the potential to emit particles into the atmosphere that are detrimental to human health. Thermoplastic polymers such as polypropylene, polybutylene, and polyethylene are alternatives to PVC that are better for the environment and offer a number of advantages in addition to the fact that they do not include chlorine in their composition.
They have a variety of applications, including but not limited to use in heating systems, sanitary water pipes, wastewater transport and drainage, and drainage systems. They are also utilized in the process of waterproofing roofs and in the insulation of electrical systems. In addition to being inexpensive, both financially and from the perspective of the environment,
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The Bamb building, designed by Alejandro Zaera, features a bamboo lattice that wraps around its exterior in a continuous fashion.
The Bamb building, designed by Alejandro Zaera, features a bamboo lattice that wraps around its exterior in a continuous fashion.
To make our buildings friendlier to the environment, there are, of course, many more materials available on the market; however, we believe that those mentioned here are the most well-known and the easiest to implement in order to make the initial steps toward sustainable architecture.
In the event that you have an interest in this matter, you might like to read one of our earlier postings on ecological design, energy efficiency, or bioconstruction.
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