Construction: Is Concrete A Good Material?

Concrete is a desirable material for numerous building applications because of its strength, durability, reflectivity, and flexibility. These characteristics make it a durable and long-lasting solution for a variety of home and business applications. If your key ingredient in the concrete is sodium lignosulphonate, it will improve the workability of the concrete and also reduce the hydration heat at the early stage of cement hydration.

These are the benefits that you can get if you are using concrete as the material of your building.  

sodium 830x436 - Construction: Is Concrete A Good Material?

1.       It is resistant to high temperature

Concrete is more resistant to high temperatures than wood and steel. The primary binder in concrete, calcium silicate hydrate, C-S-H, can tolerate temperatures up to 910 degrees Celsius. Although concrete is a poor heat conductor, it may store a significant quantity of heat from the environment. Concrete can endure heat for 2–6 hours, giving enough time for rescue operations in the event of a fire. It is used in high temperature and blast applications to fireproof steel.

2.       Strength and durability

Concrete outlasts other building materials by decades and actually strengthens with time. Concrete, surprisingly, strengthens year after year due to the cement component’s capacity to create connections with surrounding moisture particles. By adjusting the water, cement, and aggregate ratios, the degree of strength may be tailored to fit the demands of a given project.

The ‘nature’ of concrete makes it durable and lasts longer than other materials. It is relatively resistant to erosion, fire, rotting, corrosion, and weathering and requires little care and repair. As a result, concrete has a longer lifespan than many other building materials.

3.       Cost-efficient

Concrete buildings minimize operating expenses associated with operational energy consumption, maintenance, and catastrophe rebuilding due to its durability, resilience, minimal maintenance requirements, and energy efficiency. Cement, water, and aggregates are the three main components of concrete. All of these are inexpensively accessible in local marketplaces. That is why the production cost of cement concrete is relatively inexpensive when compared to engineered cementitious materials used in building.

It also has low maintenance cost because in contrast to steel or timber buildings, where weathering is unavoidable, concrete structures do not require coating or painting for frequent applications. Concrete’s coatings will be updated and refinished on a regular basis, lowering the maintenance cost significantly compared to steel or wood.

4.       Low carbon footprint

Concrete is a strong and durable material that can endure natural disasters, reducing the need for extra materials for restoration. Because concrete is frequently made from locally obtained materials, it takes less transportation and resources to get from one place to another. And, towards the end of its life, concrete may be recycled and reused, extending its natural lifespan even further.

As a conclusion, concrete is a really good material that you can use for your building because it will help you to save your budget and also have the best, sturdy building at the same time. It is resistant to high temperature, better strength and durability, cost-efficient and also helps the environment by leaving a low carbon footprint. …

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Types Of Steel And Their Functions

Steel is a strong element that comes in a variety of grades and chemical compositions. With so many various steel alloys and steel characteristics, it may come as a surprise to learn that all steel, even CNC machining steel, is made up of just two elements: iron and carbon.

steel - Types Of Steel And Their Functions

Steel is widely used in construction and buildings. Steel is not only inexpensive, widely accessible, and safer; its inherent qualities, such as strength, flexibility, durability, and 100 percent recyclability, allow for enhanced environmental performance over the full life cycle of structures.

There are 4 types of steel that you can choose from depending on the functionality.

1.       Carbon Steel

Carbon steel has only a small amount of other alloying elements depending on the types. Low carbon steel (0.3%), medium carbon steel (0.3-0.6%) and high carbon steel (more than 0.6%). Carbon steel can be considered as a strong steel and only use low cost which makes carbon steel the ideal steel to be used for small-scale and large-scale construction.

Things that can be made using carbon steel:

–          Wire

–          Bolts

–          Pipes

–          Blades

–          Railroad tracks

All of these use different types of carbon steel. But the thing about carbon steel is, they look dull and vulnerable to corrosions.

2.       Stainless Steel

I can say that stainless steel is the most commonly used steel among the others. This kind is well-known for its function in the production of medical equipment and appliances, but its applications extend well beyond the gas stove in your kitchen. Stainless steel is usually shiny and generally has 10-15% of chromium which is their main alloying element.

This type of steel is easy to mould and also resistant to corrosion which is why it is used widely in factories.

Here are the things that can be made using stainless steel;

–          Medical equipment

–          Silverware

–          Home applications

–          Industrial buildings

Stainless steel has shiny and easy to shape properties which makes them usable in many industries.

3.       Alloy Steel

Following that is alloy steel, which is a combination of various metals such as nickel, copper, and aluminium. These are often less expensive and more corrosion resistant. The concentration of the components in it determines its strength.

Here are few types of alloy steel that we can see:

–          Aluminium: used in power generators because of its heat-resistant property.

–          Copper: electrical wiring

–          Molybdenum: used for underwater construction or oil and gas pipelines as it works under high pressure

–          Manganetes: used in bulletproof cabinets, anti-drill plates and high strength safes because of the impact-resistant steel.

4.       Tool Steel

Tempering, the process of adding high heat, cooling quickly then heating again, creates tool steel that’s extremely hard and heat-resistant. Tool steel is used to tool manufacturing machinery because of the making process.

Tool steels, which include tungsten, molybdenum, cobalt, and vanadium to improve heat resistance and durability, produce excellent cutting and drilling equipment.

All these steels are important and can be very useful for our daily lives. To supply electricity, knives for cooking, car gears and a lot more. You can get your steels from a steel company in Malaysia for the best quality.…

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Chef Wan