| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Metal used for galvanizing sheet iron. Ingredient in alloys (bronze, brass, etc.), protective coatings for other metals, household utensils, etc. | | | | <a href="PDF/P_InfoEn/Z-001.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/Z-001.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/Z-001.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/Z-001.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>2</sub>AuKN<sub>2</sub> | Potassium dicyanoaurate(I) | | | | | <img src="../IMAGES/aq.gif"/> | Potassium Dicyanoaurate(I); Potassium Cyanoaurite; Gold(I)Potassium Cyanide; Potassium aurocyanide; Aurate(1-), bis(cyano-C)-, potassium; Potassium cyanoaurate(I). | Gold salt used in the electroplating industry. | | | | <a href="PDF/P_InfoEn/P-015.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/P-015.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/P-015.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/P-015.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Mercuric bichloride; mercuric chloride; Bichloride of Mercury; Corrosive Sublimate; Mercury perchloride; Corrosive mercury chloride; Mercury (II) Chloride; Mercury chloride; dichloromercury; perchloride of mercury; sublimate; TL 898; Mercury chloride (2). | In tanning leather. Intensifier in photography. Topical antiseptic and disinfectant. Cross: other mercurials. | | | | <a href="PDF/P_InfoEn/M-004.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/M-004.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/M-004.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/M-004.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | V<sub>2</sub>O<sub>5</sub> | | | | | | <img src="../IMAGES/pet.gif"/> | Vanadium pentaoxide, Vanadium pentoxide, Vanadia, Vanadic acid anhydride | This chemical is used as a principal precursor to alloys of vanadium and is a widely used industrial catalyst.
It can also be found in air care products, floor coverings, paints and coatings.
For testing purpose this is also used to test allergy for Vanadium. Vanadium is used in applications for bicycle parts, glass coatings and jewelry. It can also be found dental implants. | | | | <a href="PDF/P_InfoEn/V-005.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/V-005.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/V-005.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/V-005.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | AuNa<sub>3</sub>(S<sub>2</sub>O<sub>3</sub>)<sub>2</sub>x<sub>2</sub>H<sub>2</sub>O | Gold(I)sodium thiosulfate dihydrate | | | | | <img src="../IMAGES/pet.gif"/> | Goldsodiumthiosulfate, Bis[monothiosulfato-(2-)-O,S]aurate(3-) trisodium; Bis[monothiosulfato)aurate(3-) trisodium; Double thiosulfate of gold and sodium; Hyposulfite of gold and sodium; Sodium aurothiosulfate; Auricidine; Aurocidin; Aurolin; Auropex; Auropin; Aurosan; Aurothion; Crisalbine; Crytion; Novacrysin; Sanochrysine; Solfocrisol; Thiochrysine; Sodium Thiosulfatoaurate; Thiosulfuric acid (H2S2O3), gold(1+) sodium salt (2:1:3). | Gold derivative used for screening of contact allergy to dental gold materials. | | | | <a href="PDF/P_InfoEn/G-005A.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/G-005A.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/G-005A.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/G-005A.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Red copper oxide; Brown copper oxide; Copper (I) oxide; C.I. 77402; Perenex; Yellow cuprocide; Copper-Sandoz; Caocobre; cuprite; Copper oxide; Copox; Copper hemioxide; Copper nordox; Copper oxide (Cu2O); Copper protoxide; Copper suboxide; Cuprocide; Dicopper monoxide; dicopper oxide; Fungi-rhap CU-75; Fungimar; Kuprite; Nordox; Nordox SD-45; Oleo nordox; Oleo nordox perecot; Oleocuivre; Perecot; Perenox. Fungicide. | Red pigment for glass. In antifouling paints (Cuprous oxide). | | | | <a href="PDF/P_InfoEn/C-021.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/C-021.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/C-021.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/C-021.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Iridium; Iridium, powder; | Iridium is a chemical element that has the symbol Ir and atomic number
77. A dense, very hard, brittle, silvery-white transition metal of the platinum
family, iridium is used in high-strength alloys that can withstand
high temperatures and occurs in natural alloys with platinum or osmium.
Iridium is notable for being the most corrosion-resistant element known.
It is used in high-temperature apparatus, electrical contacts, and as a hardening
agent for platinum. The principal use of iridium is as a hardening
agent in platinum alloys. Other uses: Crucibles and devices that require
high temperatures. Electrical contacts (notable example: Pt-Ir spark
plugs). Osmium-iridium alloys are used for compass bearings. Iridium is
commonly used in complexes like Ir(mppy)3 and other complexes in
polymer LED technology to increase the efficiency from 25% to almost
100% due to triplet harvesting. Used in high-dose-radiation therapy for the treatment of prostate and other forms of cancer Iridium is used as a
catalyst for carbonylation of methanol to produce acetic acid Iridium is
used in supercolliders in the production of antimatter, specifically antiprotons. | | | | <a href="PDF/P_InfoEn/I-014.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/I-014.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/I-014.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/I-014.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Indium is a chemical element with chemical symbol In and atomic number
49. This rare, soft, malleable and easily fusible poor metal is chemically
similar to aluminium or gallium but more closely resembles zinc (zinc
ores are also the primary source of this metal). Its current primary application
is to form transparent electrodes from indium tin oxide in liquid crystal
displays. It is widely used in thin-films to form lubricated layers (during
World War II it was widely used to coat bearings in high-performance
aircraft). It’s also used for making particularly low melting point alloys,
and is a component in some lead-free solders. Sometimes present in dental alloys. | | | | <a href="PDF/P_InfoEn/I-015.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/I-015.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/I-015.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/I-015.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Used in a method of manufacturing a ceramic capacitor suitable for high
energy density and high temperature application. A metal salt for testing
of allergy to titanium in dental alloys. A metal titanate such as calcium
titanate, barium titanate, strontium titanate, and the like has widely been
used as a material having dielectric, piezoelectric properties and industrially
produced by mass production. Uses are for example, as an antenna
material, a capacitor material, a layered circuit substrate material, a connector
material, and the like which are required to be dielectric. | | | | <a href="PDF/P_InfoEn/C-049.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/C-049.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/C-049.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/C-049.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Vanadium is a chemical element that has the symbol V and atomic number 23. A soft and ductile element, vanadium naturally occurs in certain minerals and is used mainly to produce certain alloys. Approximately 80% of vanadium produced is used as ferrovanadium or as a steel additive. Other uses: In such alloys as specialty stainless steel, e.g. for use in surgical instruments and tools. Such tools are rust resistant and high speed tool steels. Mixed with aluminium in titanium alloys used in jet engines and high-speed airframes .Used in dental alloys. Vanadium steel alloys are used in axles, crankshafts, gears, and other critical components. It is an
important carbide stabilizer in making steels. Because of its low fission neutron cross section, vanadium has nuclear applications. Vanadium foil is used in cladding titanium to steel. | | | | <a href="PDF/P_InfoEn/V-002.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/V-002.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/V-002.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/V-002.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>2</sub>O<sub>4</sub>Sn | | | | | | <img src="../IMAGES/pet.gif"/> | | Stannous Oxalate is used as a catalyst (Esterification reactions) and in
dyeing and printing textiles etc. | | | | <a href="PDF/P_InfoEn/S-014.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/S-014.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/S-014.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/S-014.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>8</sub>H<sub>8</sub>HgO<sub>2</sub> | | | | | | <img src="../IMAGES/aq.gif"/> | phenylmercury acetate; PMA; (acetato-O)phenylmercury; Phenylmercuric acetate; Phenylmercury(II)Acetate; Acetoxyphenylmercury; (Aceto)phenylmercury; PMAC; PMAS; Gallotox; Liquiphene; Phix; Mersolite; Tag HL-331; Nylmerate; Scutl; Riogen; Advacide PMA 18; Cosan PMA; Mergal A25; Metasol 30; Nildew AC 30; Nuodex PMA 18; Agrosan; Cekusil; Celmer; Hong Nien; Pamisan; Seedtox; Shimmer-ex; Unisan; phenyl mercury ammonium acetate; acetic acid, phenylmercury deriv.; (acetoxymercuri)benzene; agrosan gn 5; algimycin; antimucin wdr; benzene, (acetoxymercurio)-; Bufen; ceresan universal; contra creme; dyanacide; Femma; FMA; fungitox or; HL-331; hostaquik; kwiksan; leytosan; mercuriphenyl acetate; mersolite 8; norforms; phenmad; phenomercuric acetate; phenylmercuriacetate; pmacetate; PMAL; purasan-sc-10; puraturf 10; quicksan; quicksan 20; sanitized spg; SC-110; spor-kil; TAG; tag 331; trigosan; ziarnik; Anticon; Fungicide R; Fungitox; Meracen; Mercuron; Neantina. | Catalyst; fungicide; herbicide; algicide. As preservative in antibiotic eye drops, eye cosmetics, shampoos, etc.
Cross: p-chloromercuriphenol. ICU | | | | <a href="PDF/P_InfoEn/P-008.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/P-008.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/P-008.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/P-008.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | H<sub>24</sub>Mo<sub>7</sub>N<sub>6</sub>O<sub>24</sub> x 4H<sub>2</sub>O | Ammonium molybdate(VI) tetrahydrate | | | | | <img src="../IMAGES/aq.gif"/> | Ammonium para-molybdate tetrahydrate; Ammonium molybdate tetrahydrate; | Ammonium Molybdate is an odourless crystalline compound ranging in
colour from white to yellow-green. It is also called molybdic acid hexammonium
salt tetrahydrate, ammonium molybdate tetrahydrate, and
ammonium heptamolybdate tetrahydrate. as an analytical reagent to find
the presence of phosphates, silicates, arsenates and lead in pigments. In the production of molybdenum metal and ceramics. In the preparation of
dehydrogenation and desulphurisation catalysts. In the fixing of metals
and in electroplating. In fertilizers for crops and as a negative stain in biological
electron microscopy. | | | | <a href="PDF/P_InfoEn/A-035.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/A-035.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/A-035.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/A-035.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | H<sub>8</sub>Cl<sub>6</sub>IrN<sub>2</sub> | Ammonium hexachloroiridate(IV) | | | | | <img src="../IMAGES/aq.gif"/> | Ammonium hexachloroiridate; | Ammonium hexachloroiridate is used in the production of photographic
emulsions and in catalytic composites in the process of converting hydrocarbons. | | | | <a href="PDF/P_InfoEn/A-034.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/A-034.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/A-034.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/A-034.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | In<sub>2</sub>(SO<sub>4</sub>)<sub>3</sub> | | | | | | <img src="../IMAGES/aq.gif"/> | <p> Indium sulphate; Indium(III)sulfate, Puratronic, 99.999% (metals basis); Sulfuric acid, indium(3+) salt | Indium sulphate is readily soluble in water for uses such as in water treatment. Indium sulfate is being marketed as the newest miracle dietary supplement and is falsely advertised as a dietary aid as an enhancer of food and mineral absorption, an anti-aging supplement, a blood pressure lowering supplement.</p> | | | | <a href="PDF/P_InfoEn/I-013.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/I-013.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/I-013.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/I-013.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | C.I. 77864; stannochlor; tin dichloride; stannous chloride; Tin(II)Chloride; STANNOUS CHLORIDE, 10% W/V; tin(II) chloride (1:2); tin protochloride | A solution of tin(II) chloride containing a little hydrochloric acid is used for the tin-plating of steel, in order to make tin cans. SnCl2 also reduces quinones to hydroquinones. Stannous chloride is also added as a food
additive with E number E512 to some canned and bottled foods, where it serves as a color-retention agent and antioxidant. It is used in production of ornamental glass called aurene glass. | | | | <a href="PDF/P_InfoEn/S-013.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/S-013.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/S-013.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/S-013.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | Lead(II)chloride (temporarily unavailable) | | | | | <img src="../IMAGES/aq.gif"/> | Lead dichloride; Lead chloride; Lead (II) chloride | Lead chloride is one of the most important lead-based reagents. PbCl2
also occurs naturally in the form of the mineral cotunnite. PbCl2 is used
in production of infrared transmitting glass. PbCl2 is used in production
of ornamental glass called aurene glass. A basic chloride of lead,
PbCl2·Pb(OH)2, is known as Patteson’s white lead and is used as pigment
in white paint. | | | | <a href="PDF/P_InfoEn/L-008.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/L-008.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/L-008.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/L-008.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | This chemical is a ceramic material and the most natural form of the element Zirconium. It is found in insulation, abrasives, enamels, ceramic glazes, and as diamond substitute in jewelry. It is also used in the construction of dental restorations such as crowns and bridges. It can also be used as radio-opaque material in bone cement. In orthopedic surgery bone cement is used to fix metal implants such as hip- and knee replacements. | | | | <a href="PDF/P_InfoEn/Z-009.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/Z-009.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/Z-009.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/Z-009.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | RhCl<sub>3</sub> · xH<sub>2</sub>O | Rhodium(III)chloride hydrate | | | | | <img src="../IMAGES/pet.gif"/> | | This metal can be found in precious metal alloys and in electroplating. In jewelry it can be found in white gold, platinum, and sterling silver. Rhodium is also used as an alloying agent for hardening and improving the resistance of platinum and palladium to corrosion which can be used in coatings. In the car industry rhodium is used as a catalytic converter. | | | | <a href="PDF/P_InfoEn/R-013.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/R-013.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/R-013.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/R-013.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Titanium oxide, 1700 white; P 25; horse head r-710; KH360; kronos; kronos 2073; kronos cl 220; kronos rn 40p; kronos rn 56; kronos titanium dioxide; levanox white rkb; octahedrite; R 680; Rayox; RO 2; runa arh 20; runa arh 200; runa rh20; rutile; rutiox cr; tiofine; tiona t.d.; tioxide; tioxide ad-m; tioxide r-cr; tioxide rhd; tioxide rsm; tioxide r.xl; tipaque; tipaque r 820; ti-pure; ti-pure r 101; ti-pure r 900; ti-pure r 901; ti-pure r 915; titafrance; titanic acid anhydride; titania; titanic anhydride; titanic oxide; Titanium dioxide. | Titanium dioxide, also known as titanium(IV) oxide or titania, is the naturally occurring oxide of titanium, chemical formula TiO2. When used as a pigment, it is called titanium white, Pigment White 6, or CI 77891. It is noteworthy for its wide range of applications, from paint to sunscreen to food colouring. Titanium dioxide is the most widely used white pigment because of its brightness and very high refractive index (n=2.7), in which it is surpassed only by a few other materials. TiO2 is also an effective opacifier in powder form, where it is employed as a pigment to provide whiteness and opacity to products such as paints, coatings, plastics, papers, inks, foods, medicines (i.e. pills and tablets) as well as most toothpastes. Used as a white food colouring, it has E number E171. In cosmetic and skin care products, titanium dioxide is used both as a pigment and a thickener. It is also used as a tattoo pigment and styptic pencils. This pigment is used extensively in plastics and other applications for its UV resistant properties where it acts as a UV absorber, efficiently transforming destructive UV light energy into heat. | | | | <a href="PDF/P_InfoEn/T-040.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-040.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-040.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-040.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Molybdenum pentachloride, Pentachloromolybdenum | This chemical is an inorganic compound, a dark volatile solid which is mainly used in research to prepare other molybdenum compounds. For testing purpose this is also used to test allergy for Molybdenum.
Molybdenum compounds are found in the manufacture of aircraft parts, electrical contacts, motors, filaments, and high-strength steel alloys. It can also be found in dental implants. | | | | <a href="PDF/P_InfoEn/M-038.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/M-038.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/M-038.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/M-038.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Titanium; Titanium powder, dry; Titanium, rod | Titanium is a chemical element; in the periodic table it has the symbol
Ti and atomic number 22. It is a light, strong, lustrous, corrosion-resistant (including resistance to sea water and chlorine) transition metal with a grayish color. Titanium can be alloyed with other elements such as iron, aluminium, vanadium, molybdenum and others, 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, orthopaedic implants, dental implants), sporting goods, and other applications. | | | | <a href="PDF/P_InfoEn/T-042.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-042.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-042.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-042.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Na<sub>2</sub>WO<sub>4</sub> · 2H<sub>2</sub>O | Sodium tungstate dihydrate | | | | | <img src="../IMAGES/aq.gif"/> | Sodium tungstate, Tungstic acid sodium salt dihydrate, Tungsten | In patch testing this chemical is used to diagnose a contact allergy to tungsten. Tungsten, also known as wolfram, is a metal. It can be found in incandescent light bulb filaments, X-ray tubes, and electrodes in welding, superalloys, and radiation shielding. About half is used in the form of tungsten carbide, WC. Tungsten's hardness and high density give it military applications in penetrating projectiles. Tungsten compounds are also often used as industrial catalysts.
Tungsten is the only metal from the third transition series that is known to occur in biomolecules, where it is used in a few species of bacteria and archaea. In medicine, tungsten can be found in medical devices such as joint replacements, intravascular devices and dental implants. Tungsten is also used in jewelry. | | | | <a href="PDF/P_InfoEn/S-019.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/S-019.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/S-019.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/S-019.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/METE-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/METE-1000.pdf" Target="_blank">Previous Year</a> | |