A material or body can undergo physical changes, but the integration of the structure remains intact or remains unchanged. Therefore, there are multiple examples of ductility .
What is ductility?
It is the ability or property of certain materials to transform into another component without destroying the original structure by force .
Consequently, other derivatives are obtained from the same material, which can be deformed without breaking the original or primary component.
10 examples of ductility
Taking into account the previous idea, we present the best examples of ductility and some characteristics of these materials.
Gold is a component that can be both malleable and ductile . In this sense, gold can be molded into other materials under the direct action of a thermal force, that is, heat .
Therefore, it is known as the most ductile material in the world and is that with a single ounce or small measure you can create large objects.
Some of the materials formed with gold are: plates, bars, threads, chains, transparent sheets and others.
This chemical element is an abundant material on the planet and one of the most ductile.
In this way, aluminum can work at low-grade melting points and density, which means, the increase in materials derived from this element.
For example, aluminum can form cables, wires, wires, sheets and even paper, the latter very useful in domestic work.
The formation of this material is due to the union of iron and carbon , despite being resistant it is very ductile and the direct action of heat demonstrates it.
Therefore, the creation of other elements belonging to steel is multiple and can cover different construction materials.
An example of this is the creation of bars or structures that support the weight of other heavy materials. Therefore, the structures that support a building, shopping center and even the houses, are made of steel.
Iron is one of the most abundant chemical elements in the earth’s crust and also one of the group with the greatest ductility.
Meanwhile, its characteristics are malleable with extreme density and electromagnetic properties.
That is why it must be linked to another chemical material, in this case, carbon to take advantage of the properties of iron.
For example, thanks to the alloy of iron and carbon, steel is formed, another example of ductility.
It also has other components or materials that are useful in construction, building and urban planning.
This biological and organic material is of a medium proportion ductility and it must have some conditions to act ductilely.
On the other hand, several elements can originate within this natural component that depend on the level of humidity that said material has.
With respect to the ductility of platinum it is verifiable, and it is that this chemical element can be mixed, both malleable and ductile.
On the other hand, like gold, it can be easily detached and derived from other components and materials, useful in the production of jewelery and precious stones.
At the same time, it is also useful in the construction branch as materials for wires, cables, sheets and other components.
Lead is one of the chemical elements with the greatest capacity and elaboration when it comes to the smelting process or direct heat force.
Therefore, this heavy metal can be flexible if it comes into contact with a force that gives it related ductile properties.
An example of lead in the molten state is by making cables, fibers and sheets that are useful for construction.
Another example of ductile materials is plasticine, which is useful in didactic and teaching methods in early childhood education children.
In relation to the properties of this material, it is the final result of the alloy of calcium , petroleum jelly and other aliphatic compounds .
Due to the configuration of the plasticine, it cannot break, much less lose its chemical capacity, therefore, it is easy to use.
At the same time, it is non-toxic and manipulable. So, there is no concern when being manipulated by the smallest of the house.
Copper is another example of ductility and it is due to the electrical conduction capacity of this transition metal.
Therefore, the elasticity of copper is useful in the construction of high voltage cables and fiber optics.
In this way, copper is common in life, since the composition of this metal is located in electrical appliances due to its electrical connection.
Finally, one of the materials that has proven ductility capacity is bronze , the result of the alloy of copper and tin.
According to its structure, bronze is useful in making other materials, including pipes and some electrical wiring systems.
On the other hand, the taps are made of this material, as are the plates, construction sheets and other products.
In conclusion, bronze is one of the most useful conductive and ductile elements in the world.