Lightweight and durable metal alloys. The hardest metal in the world

many lovers interesting facts I'm wondering which metal is the hardest? And it won’t be easy to answer this question offhand. Of course, any chemistry teacher will easily say correctly, without even thinking. But among ordinary citizens who last studied chemistry at school, not many will be able to give the answer correctly and quickly. This is due to the fact that since childhood everyone has been accustomed to making various toys from wire and has well remembered that copper and aluminum are soft and bend well, but steel, on the contrary, is not so easy to give the desired shape. A person deals with the three named metals most often, so he doesn’t even consider the other candidates. But steel is certainly not the hardest metal in the world. To be fair, it is worth noting that this is not a metal at all in the chemical sense, but a compound of iron and carbon.

What is titanium?

The hardest metal is titanium. Pure titanium was first obtained in 1925. This discovery created a sensation in scientific circles. On new material Industrialists immediately drew attention and appreciated the benefits of its use. According to the official version, the hardest metal on Earth got its name in honor of the indestructible Titans, who, according to ancient Greek mythology, were the founders of the world.

According to scientists, the total world reserves of titanium today are about 730 million tons. At the current rate of extraction of fossil raw materials, there will be enough for another 150 years. Titanium ranks 10th in natural reserves among all known metals. The world's largest titanium producer is Russian company"VSMPO-Avisma", which satisfies up to 35% of the world's needs. The company is engaged in the full processing cycle from ore mining to the manufacture of various products. It takes up about 90% Russian market for titanium production. About 70% finished products goes for export.

Titanium is a light, silver-colored metal with a melting point of 1670 degrees Celsius. Shows high chemical activity only when heated; under normal conditions it does not react with most chemical elements and connections. It is not found in nature in its pure form. Common in the form of rutile (titanium dioxide) and ilmenite (a complex substance consisting of titanium dioxide and ferrous oxide) ores. Pure titanium is isolated by sintering the ore with chlorine and then displacing the more active metal (usually magnesium) from the resulting tetrachloride.

Industrial applications of titanium

The hardest metal has a fairly wide range of applications in many industries. Amorphously arranged atoms provide titanium highest level tensile and torsional strength, good impact resistance, high magnetic properties. Metal is used to make cases air transport and missiles. It copes well with the enormous loads that cars experience at great heights. Titanium is also used in the production of hulls for submarines, as it can withstand high pressure at great depths.

In the medical industry, metal is used in the manufacture of dentures and dental implants, as well as surgical instruments. The element is added as an alloying additive to some grades of steel, which gives them increased strength and resistance to corrosion. Titanium is well suited for casting as it produces perfectly smooth surfaces. It is also used to make jewelry and decorative items. Titanium compounds are also actively used. Dioxide is used to make paints, whitewash, and is added to paper and plastic.

Organic titanium salts are used as a hardening catalyst in paint and varnish production. Various tools and attachments for processing and drilling other metals are made from titanium carbide. In precision engineering, titanium aluminide is used to produce wear-resistant elements that have a high safety margin.

Most hard alloy The metal was obtained by American scientists in 2011. Its composition included palladium, silicon, phosphorus, germanium and silver. The new material was called "metallic glass". It combines the hardness of glass and the plasticity of metal. The latter prevents cracks from spreading, as happens with standard glass. Naturally, the material was not put into widespread production, since its components, especially palladium, are rare metals and are very expensive.

IN this moment Scientists' efforts are aimed at finding alternative components that would preserve the properties obtained, but significantly reduce the cost of production. However, some parts for the aerospace industry are already being produced from the resulting alloy. If alternative elements can be introduced into the structure and the material becomes widespread, then it is quite possible that it will become one of the most popular alloys of the future.

Our world is full of amazing facts that are interesting to many people. The properties of various metals are no exception. Among these elements, of which there are 94 in the world, there are the most ductile and malleable, and there are also those with high electrical conductivity or a high resistance coefficient. This article will talk about the hardest metals, as well as their unique properties.

Iridium ranks first in the list of metals that are distinguished by the greatest hardness. It was discovered at the beginning of the 19th century by the English chemist Smithson Tennant. Iridium has the following physical properties:

• has a silvery-white color;
• its melting point is 2466 o C;
• boiling point – 4428 o C;
• resistance – 5.3·10−8Ohm·m.

Because iridium is the hardest metal on the planet, it is difficult to process. But it is still used in various industrial fields. For example, it is used to make small balls that are used in pen nibs. Iridium is used to make components for space rockets, some parts for cars, and more.

Very little iridium occurs in nature. Findings of this metal are a kind of evidence that meteorites fell in the place where it was discovered. These cosmic bodies contain significant amounts of metal. Scientists believe that our planet is also rich in iridium, but its deposits are closer to the Earth's core.

The second position on our list goes to ruthenium. The discovery of this inert silvery metal belongs to the Russian chemist Karl Klaus, which was made in 1844. This element belongs to the platinum group. It is a rare metal. Scientists have been able to establish that there is approximately 5 thousand tons of ruthenium on the planet. It is possible to extract approximately 18 tons of metal per year.

Due to its limited quantity and high cost, ruthenium is rarely used in industry. It is used in the following cases:

• his a small amount of added to titanium to improve corrosion properties;
• its alloy with platinum is used to make electrical contacts that are highly resistant;
• ruthenium is often used as a catalyst for chemical reactions.

A metal called tantalum, discovered in 1802, takes third place on our list. It was discovered by the Swedish chemist A. G. Ekeberg. For a long time it was believed that tantalum is identical to niobium. But the German chemist Heinrich Rose managed to prove that these are two different elements. Scientist Werner Bolton from Germany was able to isolate tantalum in its pure form in 1922. This is a very rare metal. The largest deposits of tantalum ore were discovered in Western Australia.

Due to its unique properties, tantalum is a highly sought-after metal. It is used in various fields:

• in medicine, tantalum is used to make wire and other elements that can hold tissue together and even act as a bone substitute;
• alloys with this metal are resistant to aggressive environments, which is why they are used in the manufacture of aerospace equipment and electronics;
• tantalum is also used to create energy in nuclear reactors;
• element is widely used in chemical industry.

Chromium is one of the hardest metals. It was discovered in Russia in 1763 in a deposit in the Northern Urals. It has a bluish-white color, although there are cases where it is considered a black metal. Chrome cannot be called a rare metal. The following countries are rich in its deposits:

• Kazakhstan;
• Russia;
• Madagascar;
• Zimbabwe.

There are chromium deposits in other countries as well. This metal is widely used in various branches of metallurgy, science, mechanical engineering and others.

The fifth position in the list of the hardest metals goes to beryllium. Its discovery belongs to the chemist Louis Nicolas Vauquelin from France, which was made in 1798. This metal has a silvery-white color. Despite its hardness, beryllium is a brittle material, which makes it very difficult to process. It is used to create high-quality loudspeakers. It is used to create jet fuel and refractory materials. The metal is widely used in the creation of aerospace technology and laser systems. It is also used in nuclear energy and in the manufacture of X-ray equipment.

The list of the hardest metals also includes osmium. It is an element belonging to the platinum group, and its properties are similar to iridium. This refractory metal is resistant to aggressive environments, has a high density, and is difficult to process. It was discovered by the scientist Smithson Tennant from England in 1803. This metal is widely used in medicine. Elements of pacemakers are made from it, and it is also used to create the pulmonary valve. It is also widely used in the chemical industry and for military purposes.

The transition silver metal rhenium takes the seventh position on our list. The assumption about the existence of this element was made by D.I. Mendeleev in 1871, and chemists from Germany managed to discover it in 1925. Just 5 years after this, it was possible to establish the extraction of this rare, durable and refractory metal. At that time, it was possible to obtain 120 kg of rhenium per year. Now the amount of annual metal production has increased to 40 tons. It is used for the production of catalysts. It is also used to make electrical contacts that can self-clean.

Silver-gray tungsten is not only one of the hardest metals, it also leads in refractoriness. It can only be melted at a temperature of 3422 o C. Thanks to this property, it is used to create incandescent elements. Alloys made from this element have high strength and are often used for military purposes. Tungsten is also used to make surgical instruments. It is also used to make containers in which radioactive materials are stored.

One of the hardest metals is uranium. It was discovered in 1840 by the chemist Peligo. D.I. Mendeleev made a great contribution to the study of the properties of this metal. The radioactive properties of uranium were discovered by the scientist A. A. Becquerel in 1896. Then a chemist from France called the detected metal radiation Becquerel rays. Uranium is often found in nature. The countries with the largest deposits of uranium ore are Australia, Kazakhstan and Russia.

The final place in the top ten hardest metals goes to titanium. For the first time this element was obtained in its pure form by the chemist J. Ya. Berzelius from Sweden in 1825. Titanium is a lightweight silver-white metal that is highly durable and resistant to corrosion and mechanical stress. Titanium alloys are used in many branches of mechanical engineering, medicine and the chemical industry.

From childhood we know that the strongest metal is steel. We associate everything iron with it.

Iron man, iron lady, character of steel. When we pronounce these phrases, we mean incredible strength, strength, hardness.

For a long time, steel was the main material in production and armament. But steel is not metal. More precisely, it is not entirely pure metal. This is with carbon, in which other metal additives are present. By using additives, e.g. change its properties. After this, it is processed. Steelmaking is a whole science.

The strongest metal is obtained by introducing appropriate alloys into steel. This could be chromium, which imparts heat resistance, nickel, which makes the steel hard and elastic, etc.

In some areas, steel has begun to replace aluminum. Time passed, speeds increased. Aluminum couldn't stand it either. I had to turn to titanium.

Yes, yes, titanium is the strongest metal. To give steel high strength characteristics, titanium began to be added to it.

It was discovered in the 18th century. Due to its fragility, it was impossible to use. Over time, having obtained pure titanium, engineers and designers became interested in its high specific strength, low density, corrosion resistance and high temperatures. Its physical strength exceeds the strength of iron several times.

Engineers began adding titanium to steel. The result is the most durable metal, which has found application in ultra-high temperature environments. At that time, no other alloy could withstand them.

If you imagine an airplane flying three times faster than you can imagine how the covering metal heats up. The sheet metal of the aircraft skin in such conditions heats up to +3000C.

Today, titanium is used unlimitedly in all areas of production. These are medicine, aircraft manufacturing, ship production.

It is clear that titanium will have to move in the near future.

Scientists from the USA, in the laboratories of the University of Texas in Austin, discovered the thinnest and most durable material on Earth. They called it graphene.

Imagine a plate whose thickness is equal to the thickness of one atom. But such a plate is stronger than diamond and conducts electric current a hundred times better than computer chips made of silicon.

Graphene is a material with damaging properties. It will soon leave the laboratory and rightfully take its place among the most durable materials in the Universe.

It is even impossible to imagine that a few grams of graphene would be enough to cover a football field. This is metal. Pipes made of such material can be laid manually without the use of lifting and transport mechanisms.

Graphene, like diamond, is the purest carbon. Its flexibility is amazing. This material bends easily, folds perfectly and rolls perfectly.

Manufacturers have already begun to take a closer look at it touch screens, solar panels, cell phones, and finally, super-fast computer chips.

Today we will look at the strongest metals in the world and discuss their properties. And titanium opens the “strength rating”.

Not the most durable?

The name of the metal presumably comes from the name of the ancient Greek hero Titan. Therefore, we associate this metal with indestructibility. Many consider titanium to be the strongest metal in the world. However, in reality this is far from the case.

Pure titanium was first obtained in 1925. The new material immediately attracted attention due to a number of properties. Titanium has begun to be very actively used in the industrial sector.

Today, titanium is in 10th place among natural metals in terms of prevalence. The earth's crust contains about 700 million tons. That is, the current raw materials will last for another 150 years.

Titanium has excellent properties. It is a lightweight and durable metal that is resistant to corrosion. It can be easily heat treated and has a wide range of applications. It interacts with other elements of the periodic table only when heated. Found naturally in rutile and ilmenite ores. Pure titanium is obtained by sintering ore with chlorine.

It is able to withstand enormous loads. The metal is distinguished by its high strength and impact resistance. It is used in the manufacture Vehicle, missiles and even submarines. Titanium can withstand pressure even at great depths.

It is also popular in the medical industry. Prostheses based on it do not interact with body tissues and are not subject to corrosion. But over the years it begins to wear out, which forces you to replace the prosthesis with a new one.

New developments

In 2016, scientists found a way to improve the properties of titanium and make it even more durable. The main goal of the research is to find a more durable material that is compatible with body tissues. And then we remembered gold, which has been used in prosthetics for many years.

The alloy of titanium and gold, after several attempts to find the ideal ratio of components, turned out to be incredibly durable. 4 times stronger than other metals used today for prosthetics.

Tantalum

One of the strongest metals. Named after the ancient Greek god Tantalus, who angered Zeus and was cast into hell. It has a silvery-white color with a bluish tint. It is a characteristic element of granitic and alkaline magma. It is extracted from the mineral coltan, the most large deposits which are located in Brazil and Africa.

It was opened back in 1802. Then it was considered a variety of columbium, but later it was established that these are two different metals with similar properties. Only 100 years later it was possible to obtain pure tantalum. Its cost today is quite high - $150 per 1 kg of metal.

Tantalum is a refractory metal with a fairly high density. From a chemical point of view, it is stable because it does not dissolve in dilute acids. In powder form, tantalum burns well in air. Used for the manufacture of electrolytic capacitors, heaters in vacuum furnaces. Tantalum capacitors increase service life electronic systems up to 10-12 years. It is noteworthy that even jewelers have found use for it - they replace platinum.

Strength testing of metals showed that the alloy of tantalum and tungsten has almost one hundred percent strength.

Osmium is the very...

Osmium is another incredibly strong metal. It is also included in the list of the rarest and most expensive. It is present in the earth's crust in minute quantities. It is classified as dispersed, that is, it does not have its own deposits. Therefore, its extraction is accompanied by enormous difficulties.

Osmium belongs to the group of platinum metals. Its cost is about $10,000 per gram. In price it is second only to artificial Californian. It consists of several isotopes that are incredibly difficult to separate. The most popular isotope is osmium-187. Its price per gram reaches up to $200,000!

Osmium is the record holder for density among metals. In addition, it is a high-strength metal. Alloys containing osmium become resistant to corrosion and become stronger and more durable. Metal is also used in its pure form, for example, to make expensive fountain pens, which practically do not wear out and write for years.

Chromium

Chromium, cobalt and tungsten have been known to science since 1913 and are united under the common name - stellites. They remain hard even at temperatures of 600 degrees Celsius.

This metal is mainly found in the deep layers of the Earth. It is also found in stony meteorites, which are considered analogues of our mantle. Only chrome spinels are of industrial value. Many minerals that contain chromium are completely useless. The purest chromium is obtained by electrolysis of concentrated aqueous solutions or electrolysis of chromium sulfate.

Metal in combination with steel significantly enhances its strength and also adds resistance to oxidation. It improves the characteristics of steel without reducing its ductility.

Ruthenium

It belongs to the platinum group and is classified as a noble metal. However, from their list, ruthenium is considered the least noble... It was discovered by the scientist Karl-Ernst Klaus in 1844. It is noteworthy that the professor constantly smelled and tasted the results of his research. Once he even received a burn to his mouth when he tasted one of the ruthenium compounds he discovered.

Its world reserves today are about 5,000 tons. Ruthenium has been studied for a long time, but many of its properties are still unknown. The problem is that no way has yet been found to completely purify ruthenium. The contamination of raw materials prevents the study of its properties. However, doctors are confident that the use of metal in everyday life can increase the incidence of illness among the population. That is why the release of the ruthenium-106 isotope in the Urals caused such a resonance in the press. After all, ruthenium-106 has radioactive properties.

At the same time, its value in 2017 unexpectedly surpassed all platinum metals.

Iridium is the strongest metal

It is iridium that has the highest strength. Yes, it is inferior to osmium in density, but has the highest strength coefficient. It is also called the rarest of metals, but in fact the content of astatine in the earth's crust is even lower.

Iridium was studied very carefully. 70 years later, its main properties - incredible strength and corrosion resistance - have become known throughout the world. Today it is used in many industries. The lion's share The metal is exploited by the chemical industry. The remainder is distributed among many other areas, including medicine and jewelry. Iridium combined with platinum creates high-quality and very durable jewelry.

Use of metals in Everyday life began at the dawn of human development, and the first metal was copper, since it is available in nature and can be easily processed. It is not without reason that archaeologists during excavations find various products and household utensils made of this metal. In the process of evolution, people gradually learned to combine various metals, obtaining increasingly durable alloys suitable for making tools, and later weapons. Nowadays, experiments continue, thanks to which it is possible to identify the strongest metals in the world.

10.

• high specific strength;
• resistance to high temperatures;
• low density;
• corrosion resistance;
• mechanical and chemical resistance.

Titanium is used in military industry, aviation medicine, shipbuilding, and other areas of production.

9.

The most famous element, considered one of the strongest metals in the world, and under normal conditions is a weak radioactive metal. In nature, it is found both in a free state and in acidic sedimentary rocks. It is quite heavy, widely distributed everywhere and has paramagnetic properties, flexibility, malleability, and relative ductility. Uranium is used in many areas of production.

8.

Known as the most refractory metal in existence, it is one of the strongest metals in the world. It is a solid transitional element of a shiny silver-gray color. It has high strength, excellent refractoriness, and resistance to chemical influences. Due to its properties, it can be forged and drawn into a thin thread. Known as tungsten filament.

7.

Among the representatives of this group, it is considered a high-density transition metal with a silvery-white color. It occurs in nature in its pure form, but is found in molybdenum and copper raw materials. It is characterized by high hardness and density, and has excellent refractoriness. It has increased strength, which is not lost due to repeated temperature changes. Rhenium is an expensive metal and has high cost. Used in modern technology and electronics.

6.

A shiny silver-white metal with a slightly bluish tint, it belongs to the platinum group and is considered one of the strongest metals in the world. Similar to iridium, it has a high atomic density, high strength and hardness. Since osmium is a platinum metal, it has properties similar to iridium: refractoriness, hardness, brittleness, resistance to mechanical stress, as well as to the influence of aggressive environments. It is widely used in surgery, electron microscopy, the chemical industry, rocketry, and electronic equipment.

5.

It belongs to the group of metals and is a light gray element with relative hardness and high toxicity. Due to its unique properties, beryllium is used in a wide variety of production areas:

• nuclear energy;
• aerospace engineering;
• metallurgy;
• laser technology;
• nuclear energy.

Due to its high hardness, beryllium is used in the production of alloying alloys and refractory materials.

4.

Next on the list of the ten strongest metals in the world is chromium - a hard, high-strength metal of a bluish-white color, resistant to alkalis and acids. It occurs in nature in its pure form and is widely used in various branches of science, technology and production. Chrome Used to create various alloys, which are used in the manufacture of medical and chemical technological equipment. When combined with iron, it forms an alloy called ferrochrome, which is used in the manufacture of metal-cutting tools.

3.

Tantalum deserves bronze in the ranking, as it is one of the strongest metals in the world. It is a silvery metal with high hardness and atomic density. Due to the formation on its surface oxide film, has a leaden tint.

The distinctive properties of tantalum are high strength, refractoriness, resistance to corrosion, and resistance to aggressive environments. The metal is a fairly ductile metal and can be easily machining. Today tantalum is successfully used:

• in the chemical industry;
• during the construction of nuclear reactors;
• in metallurgical production;
• when creating heat-resistant alloys.

2.

The second place in the ranking of the most durable metals in the world is occupied by ruthenium, a silvery metal belonging to the platinum group. Its peculiarity is the presence of living organisms in the muscle tissue. The valuable properties of ruthenium are high strength, hardness, refractoriness, chemical resistance, and the ability to form complex compounds. Ruthenium is considered a catalyst for many chemical reactions and acts as a material for the manufacture of electrodes, contacts, and sharp tips.

1.

The ranking of the most durable metals in the world is headed by iridium - a silver-white, hard and refractory metal that belongs to the platinum group. In nature, the high-strength element is extremely rare and is often combined with osmium. Due to its natural hardness, it is difficult to machine and is highly resistant to chemicals. Iridium reacts with great difficulty to exposure to halogens and sodium peroxide.

This metal plays an important role in everyday life. It is added to titanium, chromium and tungsten to improve resistance to acidic environments, used in the manufacture of stationery, and used in jewelry to create jewelry. The cost of iridium remains high due to its limited presence in nature.