Metals are the most common material(along with plastics and glass), which has been used by people since ancient times. Even then, a person knew the characteristics of metals, he profitably used all of their properties to create beautiful works of art, dishes, household items, structures.
One of the main features of thesesubstances is their hardness and refractoriness. It is these qualities that make it possible to determine the scope of use of a particular metal. Therefore, we consider all the physical properties and pay special attention to the issues of fusibility.
The characteristics of metals by physical properties can be expressed in the form of four main points.
All physical properties are explained by the special structure of the metallic crystal lattice. Its spatial arrangement, shape and strength.
This parameter is very important when speakingcomes to the application of the substances in question. Refractory metals and alloys are the basis for machine and shipbuilding, smelting and casting of many important products, obtaining a high-quality working tool. Therefore, the knowledge of the melting and boiling points plays a fundamental role.
Characterizing the metals in strength, you can divide them into hard and brittle. If we talk about refractoriness, then there are two main groups:
Table of metals having a melting point above 1000 aboutC, is presented below. It is in it that the most refractory representatives are located.
| Metal name | Melting temperature, aboutFROM | Boiling temperature, aboutFROM |
| Gold, Au | 1064.18 | 2856 |
| Beryllium, We | 1287 | 2471 |
| Cobalt, Co | 1495 | 2927 |
| Chrome, Cr | 1907 | 2671 |
| Copper, Cu | 1084,62 | 2562 |
| Iron, Fe | 1538 | 2861 |
| Hafnium, Hf | 2233 | 4603 |
| Iridium, Ir | 2446 | 4428 |
| Manganese, Mn | 1246 | 2061 |
| Molybdenum, Mo | 2623 | 4639 |
| Niobium, Nb | 2477 | 4744 |
| Nickel, Ni | 1455 | 2913 |
| Palladium, Pd | 1554,9 | 2963 |
| Platinum, Pt | 1768.4 | 3825 |
| Rhenium, Re | 3186 | 5596 |
| Rhodium, Rh | 1964 | 3695 |
| Ruthenium, Ru | 2334 | 4150 |
| Tantalus, Ta | 3017 | 5458 |
| Technetium, Tc | 2157 | 4265 |
| Thorium, Th | 1750 | 4788 |
| Titanium, Ti | 1668 | 3287 |
| Vanadium, V | 1910 | 3407 |
| Tungsten, W | 3422 | 5555 |
| Zirconium, Zr | 1855 | 4409 |
This table of metals includes all representatives whose melting point is above 1000 aboutFROM.However, in practice, many of them are not used for various reasons. For example, because of economic benefits or due to radioactivity, too high a degree of brittleness, exposure to corrosive effects.
Also from the data of the table it is obvious that the mostrefractory metal in the world is tungsten. The lowest indicator for gold. When working with metals, softness is important. Therefore, many of the above are also not used for technical purposes.
In the periodic system is located underserial number 74. The name received the name of the famous physicist Stephen Wolfram. Under normal conditions, a solid refractory metal is silvery white. Has a pronounced metallic luster. It is chemically practically inert, reacting reluctantly.
In nature it is contained in the form of minerals:
Scientists have proven that tungsten is the mostrefractory metal from all existing. However, there are suggestions that the siborgy can theoretically break the record of this metal. But it is a radioactive element with a very short period of existence. Therefore, it is not yet possible to prove this.
At a certain temperature (above 1500 aboutC) tungsten becomes malleable and plastic.Therefore, it is possible to produce a thin wire based on it. This property is used for making filaments in ordinary household light bulbs.
As the most refractory metal, withstanding temperatures above 3400 aboutC, tungsten is used in the following technical fields:
In addition to metallic tungsten, it is widelyare used in engineering, science and electronics of its connection. As the most refractory metal in the world, it forms compounds with very high quality characteristics: durable, resistant to virtually all types of chemical attack, not corroded, resistant to low and high temperatures (wins, tungsten sulfide, its single crystals and other substances).
Nb, or niobium, under normal conditions a silver-white shiny metal. It is also refractory, since the transition temperature for it is 2477 aboutFROM.It is this quality, as well as the combination of low chemical activity and superconductivity, that allows niobium to become more and more popular in a person's practical activity every year. Today this metal is used in such industries as:
This metal retains its physical properties even at very low temperatures. Products based on it are distinguished by corrosion resistance, heat resistance, strength, excellent conductivity.
This metal is added to the aluminum materialsto increase chemical resistance. From it, cathodes and anodes are made, they are alloyed with non-ferrous alloys. Even coins in some countries do with the content of niobium.
Metal, in free form and under normal conditionscovered with oxide film. Has a set of physical properties that allow it to be widespread and very important for humans. Its main characteristics are as follows:
Thanks to such characteristics I managed to winpopularity as a basis for many heat-resistant and acid-resistant, anticorrosive alloys. Its numerous compounds find application in nuclear physics, electronics, computational plan devices. Used as superconductors. Previously, tantalum was used as an element in incandescent lamps. Now his place was taken by tungsten.
One of the hardest metals in the natural form is a bluish-white color. Its melting point is lower than that of the elements considered so far, and is 1907 aboutC. However, it is still used in technology and industry everywhere, because it is well amenable to mechanical influences, is processed and molded.
Especially valuable is chrome as a spray. It is applied to products to give them a beautiful shine, protection from corrosion and increase wear resistance. The process is called chrome plating.
The chromium alloys are very popular. After all, even a small amount of this metal in the alloy significantly increases the hardness and stability of the latter to impacts.
One of the most expensive metals, so its use for technical purposes is difficult. However, physical characteristics make it simply irreplaceable in many other industries.
Under normal conditions, this is a beautiful silvery-white metal. Has a sufficiently high melting point - 1855 aboutFROM.Has good hardness, resistance to corrosion, since it is not chemically active. It also has excellent biological compatibility with human skin and the whole body. This makes it a valuable metal for use in medicine (tools, dentures and so on).
The main applications of zirconium and its compounds, including alloys, are as follows:
Of zirconium and alloys based on it, even decorations are made that can influence the improvement of human health.
If you find out which metal is the most refractory, then, in addition to the tungsten, it is possible to name molybdenum. Its melting point is 2623 aboutC. At the same time, it is quite hard, plastic and easy to process.
It is used mainly not in pure form, but as a component component of alloys. They, thanks to the presence of molybdenum, are significantly strengthened in wear resistance, heat resistance and anti-corrosion.
Some molybdenum compounds are used astechnical lubricants. Also, this metal is a doping material, which simultaneously affects both strength and anticorrosion, which is very rare.
Gray metal with silvery sheen. Has a sufficiently high rate of fusibility (1920 aboutFROM).It is used mainly as a catalyst in many processes, due to its inertness. It is used in power engineering as a chemical source of current, in the production of inorganic acids. The main value is not a pure metal, namely, some of its compounds.
Which metal is the most refractory after tungsten? This is rhenium. Its fusibility rate is 3186 aboutFROM.Strength exceeds both tungsten and molybdenum. Its plasticity is not too high. Demand for rhenium is very high, but production is difficult. As a result, it is the most expensive metal available today.
It is used for manufacturing:
All areas of use are expensive, so it is only used in case of emergency, when there is no other option to replace it.
Titanium is a very light metal of silvery whitecolor, which is widely used in the metallurgical industry and metalworking. May explode when in a finely dispersed state, therefore, it is a fire hazard.
It is used in aircraft and rocket construction, in the production of ships. It is widely used in medicine due to its biological compatibility with the body (prostheses, piercings, implants, etc.).
