O que é CIMENTO? Tudo o que você precisa saber sobre o cimento. A ciência por trás do cimento

What is Cement? Hey Engineering Lovers, my name is Igor Felipe and today we are going to talk about the most important material in civil construction, and one of the most used materials in the world, cement. But before starting the video, I have a request for you.

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But come on, what is cement Cement is a powdered material, composed mainly of limestone and clay, which is mixed with water and other materials to form a paste that hardens and becomes resistant when dry. It is one of the main components used in the production of concrete, mortar and other construction materials. Cement is produced through a chemical process that involves mixing limestone and clay in specific proportions and firing this mixture at high temperatures in a rotary kiln.

The resulting product is a pulverized material, which is ground to a fine powder. This powder is then mixed with water and other materials, such as sand and gravel, to form concrete or mortar. There are several different types of cement, each with specific properties that make them suitable for different applications.

For example, Portland cement is the most common type of cement used in construction, while refractory cement is used in high-temperature applications such as furnaces and boilers. The chemical composition of cement can vary depending on the specific type of cement, but it is generally composed of a collection of minerals that include calcium silicates, calcium aluminates, and calcium sulfates. If we consider Portland cement, which is the most common type of cement used in civil construction, its composition is 65% to 75% of calcium silicates, including tricalcium silicate (C3S) and dicalcium silicate (C2S) 10% to 20% of calcium aluminates, including tricalcium aluminate (C3A) and belite (C2F) 1% to 4% iron oxide 1% to 3% magnesium oxide 0.

1% to 1% calcium sulfate In addition to these major compounds, cement may contain small amounts of other materials such as sodium, potassium and even sulfur oxides. Okay, but why does cement harden? Cement hardens when water is added to the dry cement mix, this is because a chemical reaction takes place between cement components and water, known as hydration.

During cement hydration, the silicate compounds in cement react with water to form hydration compounds, which include hydrated calcium silicates. These hydration compounds form hydrate crystals in cement, which contribute to the hardening and strength of the material. Hydrated calcium silicates are the main compounds responsible for the strength of concrete and they define its final strength.

When we see the final description of the cement, we have a description involving the acronym CP, which means Portland cement, followed by the class indication, followed by the addition and then with the indication of the mechanical resistance. In this case, this cement here has the CPXXXXXX indication, indicating that it is a Portland cement, of XX grade, with the addition of XX and with a mechanical strength of XX The amount of calcium silicates present in the cement is what defines what exactly this will be resistance. Tricalcium silicate (C3S) is the main silicate compound in Portland cement and is responsible for most of the initial strength of concrete.

Dicalcium silicate (C2S) is another important silicate compound in cement that contributes to the long-term strength of concrete. Hydration of silicate compounds in cement is a complex process, involving a series of chemical reactions. Initially, the water reacts with the tricalcium and dicalcium silicate to form calcium hydroxide (Ca(OH)2) and hydrated calcium silicate (CSH), which is an amorphous compound with a gel structure.

Over time, hydrated silicate compounds are rearranged and organized into a crystalline structure, which is responsible for the strength of concrete. These hydrated silicate crystals formed during cement hydration are highly interconnected, which gives concrete its stiffness and strength. These crystals continue to grow and develop over time, which is one of the reasons concrete gets stronger over time.

And as many already know, this chemical reaction releases heat, which can be observed by heating the cement mix during the hardening process. It is important to emphasize that cement hydration is a continuous process that can last several years. However, most hardening takes place in the first few weeks after mixing, reaching its mechanical strength at 28 days, and it is during this period that concrete is most vulnerable to damage or cracking.

Cement is one of the most important materials in civil construction, and as I said before, it is used in concrete, which is the main application of cement. Concrete is used to construct our homes, buildings, bridges, highways, dams, and many other types of structures. Mortar is a mixture of cement, sand and water that is used to fix bricks, blocks and other building materials to walls and floors.

Cement is also used to stabilize the soil in unstable terrain, such as the famous soil-cement mixture, also known as riprap, which is widely used to stabilize terrain and even retaining walls. We even have a video on the channel that talks about retaining walls, and I'll leave a card for it at the end of this video for you to check out. And you, did you know how the cement hardening process worked?

Have you ever had the opportunity to get your hands dirty and build something using cement. Leave it here in the comments that I want to know I'm going to leave two videos here on the side that you might like too and that's cool, it's worth checking out. If you liked the video, leave your like, subscribe to the channel and share this video with others.

That's it engineering lovers, a big hug and see you in the next video.