FIKO  Electron-beam metallurgical plant

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FIKO is a private industrial company, owner of titanium mill in Kiev, Ukraine, for melting titanium ingots with their further working into rolled titanium titanium bars, titanium tubes, titanium sheets,  titanium plates, titanium wire.



Chemical industry


Motor-car construction

Manufacture of titanium ingots and titanium slabs


Titanium materials application in aviation



Titanium disks manufacturing

Technical process layout of manufacture titanium tubes






Ultrasonic inspection in metallurgy






Titanium ingots and slabs  manufacturing






Titanium bars manufacturing


  FIKO produces titanium ingots as follows:   Titanium ingots Grade 1 ø 630 mm.Titanium ingot Grade 2 ø 630 mm.Titanium ingots Ti6Al4V ø 370-400 mm.Titanium 5V alloy ingots ø 450-510 mm.    In 2009 well launch manufacture of titanium ingots ø 800 mm 12000 kg and titanium slabs 500x1350x4000 mm 12000 kg.


     FIKO supplies

  1.  Titanium bars: 

1.1.  Titanium bar Grade 1.

1.2.  Titanium bar Grade 2.

1.3.  Titanium bar Grade 5.

1.4.  Titanium bar Grade VT 1-0.

1.5.  Titanium bar Grade 9/ PT3V.

1.6.  Titanium bar of other alloys according to GOST.

  1.  Titanium sheets:

2.1.  Titanium sheet Grade 1.

2.2.  Titanium sheet Grade 2.

2.3.  Titanium sheet Grade 5.

2.4.  Titanium sheet Grade VT 1-0.

2.5.  Titanium sheet Grade 9/ PT3V.

2.6.  Titanium sheet of other alloys according to GOST.

  1.  Titanium plates:

3.1.  Titanium plate Grade 1.

3.2.  Titanium plate Grade 2.

3.3.  Titanium plate Grade 5.

3.4.  Titanium plate Grade VT 1-0.

3.5.  Titanium plate Grade 9/ PT3V.

3.6.  Titanium plate of other alloys according to GOST.

  1.  Titanium tubes:

4.1.  Titanium tube Grade 1.

4.2.  Titanium tube Grade 2.

4.3.  Titanium tube Grade 5.

4.4.  Titanium tube Grade VT 1-0.

4.5.  Titanium tube Grade 9/ PT3V.

4.6.  Titanium tube of other alloys according to GOST.



Titanium (pronounced /taɪˈteɪniəm/) is a chemical element with the symbol Ti and atomic number 22. Sometimes called the space age metal, it has a low density and is a strong, lustrous, corrosion-resistant (including to sea water and chlorine) transition metal with a silver colour. Titanium can be alloyed with iron, aluminium, vanadium, molybdenum, among other elements, to produce strong lightweight alloys for aerospace (jet engines, missiles, and spacecraft), military, industrial process (chemicals and petro-chemicals, desalination plants, pulp, and paper), automotive, agri-food, medical prostheses, orthopedic implants, dental and endodontic instruments and files, dental implants, sporting goods, jewelry, mobile phones, and other applications. Titanium was discovered in England by William Gregor in 1791 and named by Martin Heinrich Klaproth for the Titans of Greek mythology.

The element occurs within a number of mineral deposits, principally rutile and ilmenite, which are widely distributed in the Earth's crust and lithosphere, and it is found in almost all living things, rocks, water bodies, and soils. The metal is extracted from its principal mineral ores via the Kroll process or the Hunter process. Its most common compound, titanium dioxide, is used in the manufacture of white pigments. Other compounds include titanium tetrachloride (TiCl4) (used in smoke screens/skywriting and as a catalyst) and titanium trichloride (TiCl3) (used as a catalyst in the production of polypropylene).

The two most useful properties of the metal form are corrosion resistance, and the highest strength-to-weight ratio of any metal. In its unalloyed condition, titanium is as strong as some steels, but 45% lighter. There are two allotropic forms and five naturally occurring isotopes of this element; Ti through Ti, with Ti being the most abundant (73.8%). Titanium's properties are chemically and physically similar to zirconium.



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