ACHARYAA AGENCIES Pollachi, Coimbatore, Tamil Nadu

7 IRIDIUM WIRE     APPLICATION: Wire made of Iridium and its alloys is used in production of spark plug  electrodes and in other specialtasks. COMPOSITION: Ir 99.95% / Ir alloys WIRE DIAMETER: 0.08-6.00 mm WIRE DELIVERY FORM: in coils / on spools / in rods / pins       Alloy Wire Pins IrRh90-10 + + IrRh75-25 + + IrRh68-32 + + IrRhRe89-8-3 + + PtPdIr57-34-9 + + PtIr80-20 + + PtIr75-25 + + PtIr70-30 + +

IRIDIUM CRUCIBLES AND PRODUCTS FOR SINGLE CRYSTAL GROWING APPLICATION: Iridium crucibles are used for growing single crystals with a high melting point, such as lithium tantalate, sapphires and others, as well as in scientific research.   Dimensions Cylindrical crucible type A and type B* Conical crucible type A and type B* Bottom diameter from 20 to 240 mm from 30 to 80 mm Crucible diameter from 20 to 240 mm from 35 to 105 mm Wall thickness from 1.0 to 4.0 mm from 1.0 to 4.0 mm Height from 20 to 250 mm from 40 to 100 mm Type A: thickness of side walls and bottom are equal. Type B: bottom is thicker than side walls with a coefficient of 1.2 to 1.3. WELDEDBOTTOMCRUCIBLES                                              SOLID-DRAWN BOTTOMCRUCIBLES Crucibles, holders, dies, screens, and other products from iridium necessary for single crystals growing can be manufactured upon the customer's request.

Our plant manufactures wire and rods of platinum, palladium, gold, silver, and also of alloys based on PGMs. The products are supplied on spools or in coils. Wire made of precious metals is used in electronics, electrical engineering, and jewelry production. AlloyDiameter, mm MinMax Ag 0.02 10 AgCu92.5 0.06 10 AgCu875 0.06 10 AgCu90 0.06 10 AgCu916 0.06 10 AgCu925 0.06 10 AgCu960 0.06 10 AgPd60-40 0.06 10 AgPd70-30 0.06 10 AgPd80-20 0.06 10 AgPdCu50-30 0.06 10 AgPt88-12 0.06 10 Au 0.02 10 AuAgCu 58.5 - 8 0.06 10 AuAgCu50-20 0.06 10 AuAgPd75-19-6 0.03 10 AuAgPtPdCu-5-6-4-31 0.085 10 AuCr-0.5 0.04 10 AuCr-2.8 0.04 10 AuCr-3 0.04 10 AuCu75 0.085 10 AuCu80 0.09 4,5 AuNiCu91-7.5 0.04 10 AuPd97.5-2.5 0.03 10 AuPtAgCu750-90-80-OCM 1 3 Nickel (НП1) 0.025 6 Nickel (НП2) 0.03 6 Pd non-standard alloys 0.02 6 Pd 0.02 6 PdAg15-85 0.03 6 PdAg60-40 0.03 6 PdAg70-30 0.03 6 PdAg80-20 0.03 6 PdAgCu60-35 0.04 6 PdAgК60-35 0.04 6 PdCuNi-34-3 0.03 6 PdCuNiIn-33-2.5-2.5 0.045 6 PdIr82-18 0.04 6 PdIr90-10 0.02 6 PdW-5 0.02 6 PdWIn86 0.03 6 Pt 0.02 6 PtAg 80-20 0.02 6 PtAg15 0.02 6 PtAg25 0.02 6 PtAg30 0.02 6 PtAg40 0.02 6 PtAg65 0.02 6 PtCo78 0.4 6 PtCu 95.5-4.5 0.02 6 PtCu 96.5-3.5 0.02 6 PtCu91.5 0.04 6 PtCu95 0.02 6 PtCu97.5 0.04 6 PtIr70-30 0.1 6 PtIr75-25 0.04 6 PtIr80-20 0.02 6 PtIr82.5-17.5 0.02 6 PtIr85-15 0.02 6 PtIr90-10 0.02 6 PtIr95-5 0.02 6 PtNi90-10 0.08 6 PtNi95.5 0.08 6 PtPd70-30 0.02 6 PtPd80-20 0.02 6 PtPd85-15 0.02 6 PtPd90-10 0.02 6 PtPd95-5 0.02 6 PtPdRh92.5-4-3.5 0.02 6 PtPdRhRu 81-15-3.5-0.5 0.02 6 PtRh60-40 0.1 6 PtRh70-30 0.1 6 PtRh80-20 0.04 6 PtRh90-10 0.02 6 PtRh92.5-7.5 0.02 6 PtRh93-7 0.02 6 PtRh95-5 0.02 6 PtRh98-2 0.02 6 Rh 0.06 6 Ir 0.1 6 Ir (МА) 0.1 6 IrPl80-20 0.1 6 IrRh68-32 0.1 6 IrRhRe89-8 0.1 6 IrRh90-10 0.1 6 IrRh60-40 0.1 6

IRIDIUM DISCS     APPLICATION: Iridium disks are used as a source of gamma radiation in flaw detection. Non-destructive testing devices are applied to check the quality of welds and structural integrity (radiography method).   DIAMETER: 1.00-6.00 mm THICKNESS: 0.10-0.50 mm DISKS FROM IRIDIUM CAN BE MADE FROM:   Natural iridium Enriched stable isotope Iridium-191 (more than 80%), if the metal in powder form is provided by the customer

IRIDIUM DISCS     APPLICATION: Iridium disks are used as a source of gamma radiation in flaw detection. Non-destructive testing devices are applied to check the quality of welds and structural integrity (radiography method).   DIAMETER: 1.00-6.00 mm THICKNESS: 0.10-0.50 mm DISKS FROM IRIDIUM CAN BE MADE FROM:   Natural iridium Enriched stable isotope Iridium-191 (more than 80%), if the metal in powder form is provided by the customer

Rh2(SO4)3 Rhodium (III) sulphate Solution 7.50% 9.50% Solution,

RhCl3·4H2O Rhodium (III) chloride Hydrate >36.00% Hydrate

H3RhCl6 Rhodium (III) chloride Solution 5.00% 12.00% Solution

Iridium oxide coating   Our plants  Chief Chemist’s Division has developed and implemented the procedure of current-conducting iridium oxide coating deposition on the electrode details made of titanium applied for pacemakers production.   The process of IrO2 coating deposition consists of the following sequential operations:   chemical etching of the electrodes surface; surface coating of electrodes with iridium salt; thermal decomposition of the iridium salt with formation of a corrosion-resistant current-conducting layer of iridium oxide and titanium oxide mixture on the product surface.  The new technology enables to coat iridium oxide on a wide range of titanium electrodes. Preliminary chemical etching of electrode surface improves the adhesion of the film that consists of a mixture of iridium oxide and titanium oxide to a titanium substrate. The thickness of iridium oxide and titanium oxide mix layer ranges from 2 to 5 micrometers.   The developed technology enables to coat the corrosion-resistant current-conducting layer of iridium oxide and titanium oxide mix on other titanium products, such as plates, bars and tubes.

Our Central Analytical Laboratory  provides analytical services to outside organizations in performing chemical tests of precious metals and items containing them on contractual basis.