Orion Metal Trade Ltd (OMT) products

Titanium Scrap Solids Vac Quality & Ferro Quality: Grades : Key grades we regularly buy are: Gr5 (Ti:89-91%, Al:6%, V:4%), Gr9 (Ti:94-95%, Al:3%, V:2.5%), 10-2-3 (Ti:85%, V:10%, Fe:2%, Al:3%,), 6-2-4-2 (Al:6%, Sn:2%, Zr:4%, Mo:2%), Commercially Pure. Type : Bulk weldable and feedstock. Forms: Billets, Slabs, Sheets, flashings, targets, stampings, discs.

Tungsten Hard Scraps (Drills/Endmills, Inserts, Dies). Tungsten Soft Scraps (Sludges).

Turnings, solids, briquettes, re-melt, additive qualities of Zircalloy 2,4 Zr 702-705.

Cobalt bearing alloys in all forms and grades (solids, turnings, process residues (sludge) both VAC quality and refinery grade.

Nickel bearing alloys in all forms and grades (solids, turnings, process residues (sludge) both VAC quality and refinery grade.

Raw materials and Additives used in steel production and Ferro alloys production. Metal Concentrates and Powders.

Ferro Titanium is used by stainless steel makers as a stabiliser to prevent chromium carbide forming at grain boundaries and in the production of low carbon steels for sheet production. Ferro Titanium is manufactured by melting titanium scrap (sponge, chips and solids) with iron in an induction furnace. We source titanium scrap worldwide from ISO 9001:2000 certified and recognised suppliers. We have an extensive scrap processing operation to identify and control titanium scrap.

Ferro Tungsten is an alloy, which is formed by combining iron and tungsten with a tungsten content range in two grades (A and B) and the content ranges are 75%-82% and 70%-75% respectively.

The production of ferrovanadium, containing 35–80 percent vanadium, is carried out in an electric-arc furnace. Scrap iron is first melted, and a mixture of V2O5, aluminum, and a flux such as calcium fluoride or calcium oxide is added.

Ferroniobium is an important iron niobium alloy, with a niobium content of 60-70%. It is the main source for niobium alloying of HSLA steel and covers more than 80% of the worldwide niobium production. The niobium is mined from pyrochlore deposits and is subsequently transformed into the niobium pentoxide Nb2O5. This oxide is mixed with iron oxide and aluminium and is reduced in an aluminothermic reaction to niobium and iron. The component metals can be purified in an electron beam furnace or the alloy can be used as it is. For alloying with steel the ferroniobium is added to molten steel before casting. The largest producers of ferroniobium are the same as for niobium and are located in Brazil and Canada