Titanium
Titanium General
Name:Titanium | Symbol:Ti |
Type:Transition Metal | Atomic weight:47.88 |
Density @ 293 K:4.50 g/cm3 | Atomic volume:10.64 cm3/mol |
Discovered:
Titanium was discovered by the Reverend William Gregor in 1791. The pure metal was prepared in 1910 by Matthew Hunter, who heated titanium (IV) chloride together with sodium in a steel bomb. Titanium is named after the Titans, the sons of the Earth goddess in Greek mythology. |
Titanium States
State (s, l, g):solid | |
Melting point:1941 K (1668 °C) | Boiling point:3560 K (3287 °C) |
Titanium Energies
Specific heat capacity:0.52 J g-1 K-1 | Heat of atomization:471 kJ mol-1 |
Heat of fusion:14.15 kJ mol-1 | Heat of vaporization :425 kJ mol-1 |
1st ionization energy:658 kJ mol-1 | 2nd ionization energy:1310.3 kJ mol-1 |
3rd ionization energy:2652.5 kJ mol-1 | Electron affinity:7.6 kJ mol-1 |
Titanium Oxidation & Electrons
Shells:2,8,10,2 | Electron configuration:[Ar] 3d2 4s2 |
Minimum oxidation number:-1 | Maximum oxidation number:4 |
Min. common oxidation no.:0 | Max. common oxidation no.:4 |
Electronegativity (Pauling Scale):1.54 | Polarizability volume:14.6 Å3 |
Titanium Appearance & Characteristics
Structure:hcp: hexagonal close pkd | Color:silvery-white |
Hardness:6.0 mohs | |
Harmful effects:
Titanium metal is considered to be non-toxic. As metal shavings, or powder, it is a considerable fire hazard. Titanium chlorides are corrosive. |
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Characteristics:
Pure titanium is a light, silvery-white, hard, lustrous metal. It has excellent strength and corrosion resistance and also has a high strength to weight ratio. Uses: Titanium metal is used as an alloying agent with metals including aluminum, iron, molybdenum and manganese. Alloys of titanium are mainly used in aerospace, aircraft and engines where strong, lightweight, temperature-resistant materials are needed. |
Titanium Reactions
Reaction with air:mild, w/ht ⇒ TiO2 | Reaction with 6 M HCl:none |
Reaction with 15 M HNO3:passivated | Reaction with 6 M NaOH:none |
Titanium Compounds
Oxide(s):TiO, Ti2O3, TiO2 (titania) + more | Chloride(s):TiCl2, TiCl3, TiCl4 |
Hydride(s):TiH2 |
Titanium Radius
Atomic radius:140 pm | Ionic radius (1+ ion):128 pm |
Ionic radius (2+ ion):100 pm | Ionic radius (3+ ion):81 pm |
Ionic radius (2- ion):pm | Ionic radius (1- ion):pm |
Titanium Conductivity
Thermal conductivity:21.9 W m-1 K-1 | Electrical conductivity:2.6 x 106 S m-1 |
Titanium Abundance & Isotopes
Abundance earth's crust:0.56% by weight, 0.25% by moles | |
Abundance solar system:4 parts per million by weight, 100 parts per billion by moles | |
Cost, pure:$6.1 per 100g | |
Cost, bulk: $0.65 per 100g | |
Source:
Titanium is the ninth most abundant metal in the Earth's crust. Titanium is not found freely in nature but is found in minerals such as rutile (titanium oxide), ilmenite (iron titanium oxide) and sphene (titanite or calcium titanium silicate). Commercially, the metal is isolated using the Kroll process which initially prepares titanium oxide from the mineral ilmenite. The oxide TiO2 is then conv |
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Isotopes:
Titanium has 18 isotopes whose half-lives are known, with mass numbers 39 to 57. Of these, five are stable, 46Ti, 47Ti, 48Ti, 49Ti and 50Ti. The most naturally abundant of these isotopes is 48Ti at 73.8%. |
Titanium Other
Other:
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