no it is inert and used as pigments for white paints ....
No
Titanium is more reactive than cobalt. Titanium is known for its high reactivity with oxygen, forming a protective oxide layer on its surface. In contrast, cobalt is less reactive and more resistant to corrosion.
Titanium is the most reactive of the three metals you mentioned (titanium, aluminum, platinum). It readily forms compounds with oxygen in the air. Aluminum is also reactive, but it forms a protective oxide layer that prevents further reaction. Platinum is the least reactive of the three and is known for its resistance to corrosion.
Titanium is a highly reactive metal in its pure state, although titanium alloys (which are used as structural elements with a high ratio of strength to weight) are not very reactive. Pure titanium is flammable, and when it burns, it reacts not only with the oxygen in the air, but also with the nitrogen, and it will also react with water (taking the oxygen away from the hydrogen in the water molecule) so titanium fires are almost impossible to extinguish.
titanium is far more reactive than lead, in fact titanium is a pretty reactive element but like aluminum it is protected by most forms of chemical corrosion because it forms a layer of titanium oxide over its surface that shields it from reacting easily.
Both titanium oxide and titanium dioxide are used extensively as highly opaque pure white pigments in paints, inks, ceramics, plastics and many other things.
Zinc does not react with titanium under normal conditions because titanium is a more reactive metal. Titanium forms a protective oxide layer that prevents further reaction with most other metals, including zinc.
TiO is the formula of titanium (II) oxide
Titanium oxide is also called titanium dioxide. It is a compound and occurs in the minerals rutile, anatase and brookite.
No, titanium is less reactive than sodium.
Titanium oxide is an ionic compound. Titanium is a transition metal that typically forms cations, while oxygen is a nonmetal that forms anions. In titanium oxide, the titanium cations and oxide anions are held together by ionic bonds.
TiO