| | | C<sub>66</sub>H<sub>75</sub>Cl<sub>2</sub>N<sub>9</sub>O<sub>24</sub>·HCl | | | | | | <img src="../IMAGES/aq.gif"/> | | This substance is an antibiotic used to treat a number of bacterial infections. It is used as a first-line treatment for complicated skin infections, bloodstream infections, endocarditis, bone and joint infections, and meningitis caused by methicillin-resistant S. Aureus. | | | | <a href="PDF/P_InfoEn/V-004.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/V-004.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/V-004.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/V-004.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>18</sub>H<sub>37</sub>N<sub>5</sub>O<sub>9</sub> | | | | | | <img src="../IMAGES/pet.gif"/> | | This substance is an aminoglycoside antibiotic derived from Streptomyces tenebrarius and used to treat various types of bacterial infections, particularly Gram-negative infections. | | | | <a href="PDF/P_InfoEn/T-050.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-050.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-050.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-050.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>14</sub>H<sub>10</sub>O<sub>4</sub> | | | PG-7,B-17,LU-10, NAC80-70 | | | <img src="../IMAGES/pet.gif"/> | Benzoic acid, peroxide; Dibenzoyl peroxide; Benzoyl; Benzoyl Superoxide; Benzoperoxide; Novadelox; Acetoxyl; Acnegel; Benzac; Benzaknen; Debroxide; Desanden; Benzagel 10; Benoxyl; Lucidol; Nericur; Oxy-5, Oxy 10; PanOxyl; Peroxydex; Persadox; Persa-gel; sanoxit; Theraderm; Xerac BP 5; Xerac BP 10; Benzoyl peroide; BPO; trichlorobenzoic acid; TCBA; Tribac; 2,3,6-TBA; diphenylglyoxal peroxide; aztec bpo; benzaknew; BZF-60; Cadet; cadox bs; dry and clear; epi-clear; fostex; Garox; incidol; loroxide; luperco; luperox fl; nayper b and bo; norox bzp-250; norox bzp-c-35; OXY-5; Oxy-10; oxylite; oxy wash; quinolor compound; superox; Topex; vanoxide; Xerac. | This compound is a widely-used initiator, curing agent and cross-linking agent in polymerization processes (primarily in the curing of unsaturated polyester resins, production of polystyrene and related resins, styrene poly- mers and other resins). It is an oxidizer used to bleach edible oils, flour, bread and other food. It is used as a catalyst for radical reactions. It is also used as an initiator in dental applications. In medicine, it is used in non-prescription drugs for the treatment of acne; as an antiseptic and local anesthetic in the treatment of burns and ulcers; and as a keratolytic. It is used in the embossing of vinyl flooring, as a food additive, in special fast- drying printing inks for printing on plastic surfaces, in printing pastes, as a fixing agent in light microscopy, as an initiator in systems used to prepare polymers for roof bolting in mines, as a drying agent for unsaturated oils and as a burn-out agent for cellulose acetate in mixed fabrics with viscose, silk or cotton to produce a lace-like appearance. It is also used as an initiator for addition and substitution reactions in organic synthesis. It was formerly used as a bleaching agent for textiles and paper. Keratolytic agent in acne medications. May cause discoloration of the hair and postinflammatory pigmentation and hypopigmentation. ABCD. ICU. | | | | <a href="PDF/P_InfoEn/B-007.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/B-007.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/B-007.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/B-007.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>6</sub>H<sub>6</sub>O<sub>2</sub> | | | | | | <img src="../IMAGES/pet.gif"/> | Dihydroquinone; 1,4-Dihydroxybenzene; Quinol; 1,4-benzenediol; p Benzendiol; Benzoquinol; para-Hydroxyphenol; Dihydroxybenzene; 1,4-Hydroxybenzene; p-Hydroquinone; p-Dihydroxybenzene; 1,4-Benzendil; Aida; Black and White Bleaching Cream; Eldoquin; Elopaque; quinnone; Tecquinol; Hydroquinol; p-Diphenol; Hydrochinon; hydrokinone; p-benzenediol; p-dioxobenzene; alpha-hydroquinone; benzohydroquinone; beta-quinol; arctuvin; eldopaque; tenox hq; tequinol; Benzene-1,4-diol; HQ | This compound is used as a photographic reducer and developer (except in color film), as a dye intermediate inhibitor, as a stabilizer in paints, varnishes, motor fuels and oils, as an antioxidant for fats and oils, as an inhibitor of polymerization, as a reagent in the determination of small quantities of phosphate and as a depigmentor. Inhibitor in acrylic monomers and polyester resins. Antioxidant in animal feed. Present in many bleaching creams. Occupational exposure in people working with antioxidants, bacteriostatics, furs, organic chemical synthesis, paints, plastics, rubber, drugs. Cross: resorcinol. May cause depigmentation | | | | <a href="PDF/P_InfoEn/H-007.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/H-007.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/H-007.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/H-007.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>9</sub>H<sub>13</sub>N | | | | | | <img src="../IMAGES/pet.gif"/> | N,N-dimethyl-para-toluidine; 4-(Dimethylamino)toluene; p,N,N-trimethylaniline; N,N,4-trimethyl-benzenamine. | Amine accelerator for the polymerization of e.g. dental methacrylic restorative materials. | | | | <a href="PDF/P_InfoEn/D-016.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/D-016.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/D-016.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/D-016.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>6</sub>H<sub>7</sub>NO<sub>2</sub> | Ethyl cyanoacrylate (temporarily unavailable) | | | | | <img src="../IMAGES/pet.gif"/> | ECA; 2-cyano-2-propenoic acid, ethyl ester; 910EM; ACE-EE; adhesive 502; aron alpha d; black max; CA3; CA 8-3a; CN 2; CN4; cemedine 3000rs; cemedine 3000rs type-ii; cyanobond w 100; cyanobond w 300; cyanolite 201; cyanon 5msp; ethyl a-cyanoacrylate; krazy glue; N 135; permabond 105; permabond 200; permabond 268; pro grip 4000; PTR-E 3; ptr-e 40; super 3-1000; superbonder 420; TK 200; TK 201; 2-Cyanoethyl acrylate. | Acrylate compound used in instant glues to mend broken nails and to adhere glue-impregnated silk or linen to the nail plate, which is then filed to shape the nail. Instant glues are also used in medicine to glue tissues and skin cracks. The glue is also used to attach hair and to glue shoes, plastics, and many other materials. Technical Products and Impurities: The composition of a typical cyanoacrylate glue is 90.6% ethyl cyanoacrylate, 9.0% polymethylmethacrylate, 0.4% hydroquinone, and trace amounts of organic sulfonic acid. The commercial product Krazy Glue was introduced in 1973 and is reported to contain 99.95% ethyl cyanoacrylate and 0.05% undefined acrylic contaminants.The product Super Glue marketed by Loctite Corporation since December 1973 is essentially ethyl cyanoacrylate. Other companies have marketed similar cyano- acrylate adhesives under name Super Glue, causing confusion in identifying Super Glue as the ethyl ester. | | | | <a href="PDF/P_InfoEn/E-023.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/E-023.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/E-023.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/E-023.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | AlClv<sub>3</sub> x 6H<sub>2</sub>O | Aluminium(III)chloride hexahydrate | | | | | <img src="../IMAGES/pet.gif"/> | Aluminum chloride hexahydrate; Aluminum chloride, hydrated | Used in preserving wood, disinfecting stables, etc., in deodorants and antiperspirant preparations. In refining crude oil, dyeing fabrics. In dental ceramics. In topical astringents. | | | | <a href="PDF/P_InfoEn/A-022.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/A-022.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/A-022.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/A-022.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | CoCl<sub>2</sub>.<sub>6</sub>H<sub>2</sub>O | Cobalt(II) chloride hexahydrate | | S-5,H-8,DS-12,NA-43, NAE65-43, NAC80-43,IS-22 | | | <img src="../IMAGES/pet.gif"/> | Cobalt dichloride, hexahydrate; Cobalt (II) chloride-hexahydrate; Cobalt blue; Cobaltous chloride hexahydrate. | Component in paints for glass and porcelain. As siccative in paints. In various alloys (dental, etc.). May produce erythema multiforme like eruptions. ABCD. NICU. | | | | <a href="PDF/P_InfoEn/C-017A.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/C-017A.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/C-017A.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/C-017A.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | BeSO<sub>4</sub> · 4H<sub>2</sub>O | Beryllium(II)sulfate tetrahydrate | | | | | <img src="../IMAGES/pet.gif"/> | Beryllium improves many physical properties when added as an alloying element to aluminum, copper, iron and nickel. It can be found in tools and in the aerospace industry where it is used for aircraft components, missiles, spacecraft and satellites. It is a common window material for X-ray equipment and components of particle physics experiments. It is also used in thermal management applications. | Doctor Information: This hapten is prone to sensibilization at higher concentrations, do not use for screen testning. | | | | <a href="PDF/P_InfoEn/B-044.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/B-044.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/B-044.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/B-044.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-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-005B.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/G-005B.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/G-005B.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/G-005B.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | CuSO<sub>4</sub> x 5H<sub>2</sub>O | Copper(II)sulfate pentahydrate | | | | | <img src="../IMAGES/pet.gif"/> | Copper sulfate, Sulfuric Acid, Copper (II) Salt (1:1); Sulfuric Acid, Copper (2+) Salt (1:1); Copper sulfate; Phyto-Bordeaux; Bonide Copper; Fehling solution, part A; Fehling A. | Fungicide. Pigments in paints. Reagent toner in photography. Copper metal is used in, e.g., dental alloys (Cupric sulfate). ICU. | | | | <a href="PDF/P_InfoEn/C-022.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/C-022.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/C-022.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/C-022.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Metal used in tin plating, soldering and dental alloys, collapsible tubes. In the production of tin salts. | | | | <a href="PDF/P_InfoEn/T-008.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-008.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-008.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-008.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Cl<sub>3</sub>Ir.<sub>3</sub>H<sub>2</sub>O | Iridium(III)chloride trihydrate | | | | | <img src="../IMAGES/pet.gif"/> | Iridium(III)chloride trihydrate is the principal starting material for mostiridium chemistry. Among other uses it is used in the production of hydrogen peroxide. | | | | | <a href="PDF/P_InfoEn/I-012.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/I-012.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/I-012.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/I-012.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Titanium mononitride; Titanium nitride; TITANIUM NITRIDE | Titanium nitride (TiN) (sometimes known as Tinite) is an extremely hard
(~85 Rockwell C Hardness or ~2500 Vickers Hardness or 24.5 gigapascals),
ceramic material, often used as a coating on titanium alloy, steel,
carbide, and aluminum components to improve the substrate’s surface
properties. Far and away the most common use for TiN coating is for edge
retention and corrosion resistance on machine tooling, such as drill bits
and milling cutters, often improving their lifetime by a factor of three
or more. Because of TiN’s metallic gold color, it is used to coat costume
jewelry and automotive trim for decorative purposes. TiN is also widely
used as a top-layer coating, usually with nickel (Ni) or chromium (Cr)
plated substrates, on consumer plumbing fixtures and door hardware. TiN
is non-toxic, meets FDA guidelines and has seen use in medical devices
and bio-implants, as well as aerospace and military applications. Such
coatings have also been used in implanted prostheses and in dental alloys
(especially hip replacement implants). | | | | <a href="PDF/P_InfoEn/T-039.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-039.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-039.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-039.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Aminomercuric chloride; Mercuric ammonium chloride; Mercury ammonium chloride; Mercury amide chloride. | Inorganic mercurial compound used in creams as a topical antiinfective agent (formerly used in the treatment of
psoriasis and in skin-lightening formulations). May cause pigmentation and depigmentation. | | | | <a href="PDF/P_InfoEn/M-022.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/M-022.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/M-022.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/M-022.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Butter of zinc; Tinning flux; Zinc dichloride; Zinc butter; Zinc chloride; Zinc chloride, solution; | Zinc chloride is used as a deodorant and can also be used as a wood preservative.
Zinc metal is included in most single tablet over-the-counter daily vitamin and mineral supplements. Zinc is the fourth most common metal in use, trailing only iron, aluminium, and copper in annual production. Zinc is used to galvanize steel to prevent corrosion. Zinc is used to Parkerize steel to prevent rust and corrosion and used in alloys such as brass, nickel silver, dental alloys, typewriter metal and various soldering formulas. Zinc is the primary metal used in making American cents since 1982 and used in die casting notably in the automobile industry . Zinc is
used as part of the containers of batteries. The most widespread such use is as the anode in alkaline batteries. | | | | <a href="PDF/P_InfoEn/Z-007B.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/Z-007B.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/Z-007B.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/Z-007B.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Ti<sub>2</sub>(C<sub>2</sub>O<sub>4</sub>)<sub>3</sub>•<sub>10</sub>H<sub>2</sub>O | Titanium(IV)oxalate hydrate | | | | | <img src="../IMAGES/pet.gif"/> | | Titanium oxalate could be used as a source for Titanium in a process for
preparing zinc-alloy-electroplated steel sheets excellent in corrosion resistance
comprising electroplating steel sheets. Used in the preparation of
a welding flux binder and welding flux comprising the reaction product
of a hydrolyzed and polymerized organometallic compound such as metal esters and metal oxalates. A metal salt for testing of allergy to titanium in
dental alloys. | | | | <a href="PDF/P_InfoEn/T-041.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-041.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-041.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-041.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Cl<sub>4</sub>Na<sub>2</sub>Pd.<sub>3</sub>H<sub>2</sub>O | Sodium tetrachloropalladate(II) hydrate | | | | | <img src="../IMAGES/pet.gif"/> | | It is an inorganic compound used in among other things in chemical synthesis as a catalyst. It is present in many alloys containing palladium. | | | | <a href="PDF/P_InfoEn/S-017.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/S-017.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/S-017.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/S-017.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Molybdenum is a chemical element with the symbol Mo. It has the sixth
highest melting point of any element, and for this reason it is often used
in high-strength steel alloys. Molybdenum is found in trace amounts in
plants and animals, although excess molybdenum can be toxic in some
animals.
The ability of molybdenum to withstand extreme temperatures without
significantly expanding or softening make it useful in applications that
involve intense heat, including aircraft parts, electrical contacts, industrial
motors, and filaments. Molybdenum is also used in alloys, such as
dental alloys for its high corrosion resistance and weldability. Most highstrength
steel alloys are 0.25% to 8% molybdenum. | | | | <a href="PDF/P_InfoEn/M-030.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/M-030.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/M-030.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/M-030.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Vanadium chloride; vanadium (III) chloride; Vanadium (III) trichloride; vanadium trichloride; VCl3 radical | Used as a catalyst in the polymerization of olefins, epoxy, phenolic and
silicone resins. | | | | <a href="PDF/P_InfoEn/V-003.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/V-003.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/V-003.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/V-003.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Manganese dichloride; Manganese (II) chloride | Manganese(II) chloride describes a series of compounds with the formula
MnCl2(H2O)x, where the value of x can be 0, 2, or 4. The tetrahydrate
is a pink salt that occurs naturally as the rare mineral scacchite. Most
commonly, the term “manganese(II) chloride†refers to the tetrahydrate
MnCl2·4H2O, which consists of octahedral trans-Mn(H2O)4Cl2 molecules.
The dihydrate MnCl2·2H2O is also known. Many Mn(II) species
are characteristically pink. Manganese chloride is used as a catalyst in the chlorination of organic compounds, in animal feed, and in dry-cell batteries.
(Metallic manganese is used primarily in steel production to improve
hardness, stiffness, and strength. It is also used in carbon steel, stainless
steel, and high-temperature steel, along with cast iron and superalloys). | | | | <a href="PDF/P_InfoEn/M-031.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/M-031.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/M-031.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/M-031.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | zirconium chloride; ZIRCONIUM CHLORIDE, 99.9%; Zirconium chloride, (T-4)-; Zirconium(IV) chloride; zirconium tetrachloride | Zirconium(IV) chloride, also known as zirconium tetrachloride, is the inorganic compound with the formula ZrCl4. This white high-melting solid hydrolyzes rapidly in humid air. It is a key reagent in the chemistry
of zirconium. In organic synthesis zirconium tetrachloride is used as a
weak Lewis acid for the Friedel-Crafts reaction, the Diels-Alder reaction and intramolecular cyclisation reactions. It is also used to make waterrepellent textiles. | | | | <a href="PDF/P_InfoEn/Z-008.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/Z-008.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/Z-008.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/Z-008.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Tungsten is a metal with a wide range of uses, the largest of which is as
tungsten carbide (W2C, WC) in cemented carbides. Cemented carbides
(also called hardmetals) are wear-resistant materials used by the metalworking,
mining, petroleum and construction industries. Tungsten is
widely used in light bulb and vacuum tube filaments, as well as electrodes,
because it can be drawn into very thin wire with a high melting point.
Tungsten (Wolfram) is used in material for implanted electrodes and in
orthopaedic and dental implants as well as in coils to treat intracranial
aneurysms. | | | | <a href="PDF/P_InfoEn/T-043.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-043.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-043.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-043.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | flores martis; Iron chloride; Iron (III) chloride; IRON(III) CHLORIDE SOLUTION; iron sesquichloride; Iron Trichloride | Iron(III) chloride, generically called ferric chloride, is an industrial scale
commodity chemical compound. In industrial application, iron(III) chloride
is used in sewage treatment and drinking water production. Iron(III)
chloride is necessary for the etching of photogravure plates for printing
photographic and fine art images in intaglio and for etching rotogravure
cylinders used in the printing industry. Iron(III) chloride is also used in
veterinary practice. | | | | <a href="PDF/P_InfoEn/I-016.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/I-016.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/I-016.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/I-016.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Cl<sub>6</sub>H<sub>8</sub>N<sub>2</sub>Pt | Ammonium hexachloroplatinate(IV) | | | | | <img src="../IMAGES/aq.gif"/> | Platinic ammonium chloride. | Precious metal salt. In platinum plating and refining. May also cause pruritus and erythema. ICU. | | | | <a href="PDF/P_InfoEn/A-010.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/A-010.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/A-010.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/A-010.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/aq.gif"/> | Cadmium dichloride; Caddy; Vi-Cad. | This compound is used in photography, in dyeing and calico printing, in the vacuum tube industry, in the manufacture of cadmium yellow, in galvanoplasty, in the manufacture of special mirrors, as an ice-nucleating agent, as a lubricant, in analysis of sulfides to absorb hydrogen sulfide, in testing for pyridine bases, as a fungicide, in the preparation of cadmium sulfide, in analytical chemistry, as an ingredient of electroplating baths, in additions of tinning solutions, in paints and electronic components, as a pesticide, as an insecticide, as a nematocide, as a polymerization catalyst, as an anticorrosive agent and in pigments, glass and glazes, tattoos and paints. | | | | <a href="PDF/P_InfoEn/C-001.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/C-001.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/C-001.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/C-001.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/aq.gif"/> | Indium chloride; Indium (III) chloride; Indium (III) chloride, anhydrous, 99+% (metals basis); Indium trichloride; | Indium(III) chloride is a colorless salt finding some use in organic synthesis
as a Lewis acid. It is also the most available soluble derivative of
indium. Indiclor Indium In-111 Chloride is a diagnostic radiopharmaceutical
intended for radiolabeling ProstaScint (capromab pendetide) used
for in vivo diagnostic imaging procedures and for radiolabeling Zevalin
(ibritumomab tiuxetan) in preparations used for radioimmunotherapy
procedures. | | | | <a href="PDF/P_InfoEn/I-011.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/I-011.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/I-011.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/I-011.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | NiO<sub>4</sub>S.<sub>6</sub>H<sub>2</sub>O | Nickelsulfate hexahydrate | | S-7,H-7,SH-10, DS-15,DMP-15 | | | <img src="../IMAGES/pet.gif"/> | Nickel sulfate hexahydrate; sulfuric acid, nickel (2+) salt, hexahydrate; nickel monosulfate hexahydrate; Blue salt; single nickel salt. | In nickel-plating, as mordant in dyeing and printing textiles, blackening zinc and brass, nickel and nickel carbonate catalysts, coatings, ceramics and manufacture of organic nickel salts (e.g. nickel ammonium sulfate). Nickel metal: a common allergen present in various alloys, electroplated metal, earrings, lipstick holders, watches, buttons, zippers, rings, utensils, tools, instruments, batteries, machinery parts, working solutions of metal cutting fluids, nickel plating for alloys, coins, pigments, dentures, orthopedic plates, keys, scissors, razors, spectacle frames, kitchenware etc. May produce erythema multiforme like eruptions. ABCD. ICU. | | | | <a href="PDF/P_InfoEn/N-002A.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/N-002A.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/N-002A.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/N-002A.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Palladium Chloride; Palladous chloride; palladium dichloride; dichloropalladium; paladium(ous) chloride. | Photography; toning solutions; electroplating parts of clocks and watches; detecting carbon monoxide leaks in buried gas pipes; manufacture of indelible ink; preparation of metal for use as a catalyst. Catalyst in jewelry. Present in dental alloys. | | | | <a href="PDF/P_InfoEn/P-001.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/P-001.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/P-001.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/P-001.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Ga<sub>2</sub>O<sub>3</sub> | | | | | | <img src="../IMAGES/pet.gif"/> | Gallium trioxide, Gallium sesquioxide | This is a chemical compound used as part of the manufacturing of semiconductor devices. It might also be found in dental implants. | | | | <a href="PDF/P_InfoEn/G-007.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/G-007.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/G-007.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/G-007.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Ruthenium is a chemical element and a rare transition metal, which is inert to most other chemicals. Ruthenium usually occurs as a minor component of platinum ores. Most ruthenium produced is used for wear-resistant electrical contacts and the production of thick-film resistors. A minor application of ruthenium is its use in some platinum alloys, and as a catalyst. It might also be found in dental implants. | | | | <a href="PDF/P_InfoEn/R-012.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/R-012.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/R-012.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/R-012.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/aq.gif"/> | Nitric acid, silver (I) salt; Lunar caustic; silver (I) nitrate (1:1); silbernitrat. | Photography; manufacture of mirrors; other silver salts; silver plating; in sympathetic and indelible inks; dyeing hair; coloring porcelain; etching ivory; extensively used reagent in analytical chemistry; topical antiinfective; used in animals as an astringent, antiseptic, caustic, styptic, in dilute solutions as eye lotion and intramammary to destroy secretory tissue. May cause gray-brown discoloration of the conjunctivae and black discoloration of the fingernails. ABCD | | | | <a href="PDF/P_InfoEn/S-007.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/S-007.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/S-007.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/S-007.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | Aluminic acid, Aluminic hydroxide, Aluminium(III) hydroxide, Aluminium hydroxide, Hydrated alumina, Orthoaluminic acid, Gibbsite, Hydrargillite, Algeldrate, Alu-Cap, Aludrox, Gaviscon, Pepsamar | Most of this chemical is converted to aluminium oxide (alumina) that is used
in the manufacture of aluminium metal.
The chemical is also used as a fire retardant filler, producing water vapor and
smoke suppressant for polymer applications. The gel form of the chemical is
applied to make aluminium salts as flocculants in water purification.
The substance is also used as an antacid, to treat/control, or manage high levels of phosphate in the body. In addition it is also used with a low phosphate diet to prevent the formation of phosphate urinary stones.
It can also be found in personal care products. Aluminum can in different
forms be found in dental implants. | | | | <a href="PDF/P_InfoEn/A-038.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/A-038.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/A-038.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/A-038.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | In patch testing this chemical is used to diagnose contact allergy to Niobium. Niobium is a metal which can be found in steel, alloys, magnets and electro ceramics. The metal can also be found in medical devices such as pacemakers or joint replacements. It is also used in jewelry. | | | | <a href="PDF/P_InfoEn/N-008.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/N-008.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/N-008.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/N-008.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | | | | <img src="../IMAGES/pet.gif"/> | | Tantalum is a chemical element. It is widely used as minor component in alloys. Its main use today is in tantalum capacitors in electronic equipment such as mobile phones, DVD players, video game systems and computers. It can also be used in medical implants and bone repair. | | | | <a href="PDF/P_InfoEn/T-047.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/T-047.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/T-047.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/T-047.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | Cr<sub>2</sub>K<sub>2</sub>O<sub>7</sub> | | | S-1,DS-10,DMP-11,SH-7,P-14,IS-1 | | | <img src="../IMAGES/pet.gif"/> | Dichromic acid, dipotassium salt; Bichromate of potash; potassium dichromate (VI); Chromic acid, dipotassium salt; dipotassium dichromate; iopezite; Chromic acid (H2Cr2O7), dipotassium salt. Hexavalent form of chromium. | Tanning leather, dyeing, painting, decorating porcelain, printing, photolithography, pigment-prints, staining wood, pyrotechnics, safety matches, for blending palm oil, wax, & sponges; waterproofing fabrics, as oxidizer in manufacture of organic compounds, in electric batteries, as corrosion inhibitor. In cement, textile dyes, wood preservatives, alloys in metallurgy, photography, electroplating, anticorrosives, engraving, automobile industry, TV manufacturing, photocopy paper, tattoos, mascara/eye shadow pigments (chromium oxide), milk testing, welding, floor waxes, shoe polishes, paints, glues, pigments, detergents, etc. ABCD | | | | <a href="PDF/P_InfoEn/P-014A.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/P-014A.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/P-014A.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/P-014A.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>19</sub>-<sub>21</sub>H<sub>39</sub>-<sub>43</sub>N<sub>5</sub>O<sub>7</sub>.<sub>2</sub>.<sub>5</sub>H<sub>2</sub>SO<sub>4</sub> | | | | | | <img src="../IMAGES/pet.gif"/> | Jenamicin; Gentamicin sulfate; Alcomicin; Bristagen; Cidomycin; Duragentam; Garasol; Genoptic; Gentacin; Gentamycin sulfate; Gentocin; Gentogram; Gentalyn; Gentibioptal; Gent-Ophtal; Lugacin; Nichogencin; Ophtagram; Pangram; Refobacin; Septopal; Sulmycin; U-gencin; Gentaglyde; Gentamex 100; Gentacidin; genoptic s.o.p.; gm sulfate; getalline; genticin; sch 9724; Gentamicin C Complex Citrate. | Topical and systemic broad-spectrum antibiotic with bactericidal action. Also used in ophthalmic drugs. This compound is a complex mixture of the sulfates of gentamycin C1, gentamycin C1A and gentamycin C2. Pharmaceutical incompatibilites include amphotericin, cephalosporins, erythromycin, heparin, penicillins, sodium bicarbonate and sulfadiazine sodium [295]. ICU. Cross: neomycin sulfate | | | | <a href="PDF/P_InfoEn/G-006.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/G-006.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/G-006.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/G-006.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | | | | S-4,NA-9,IS-2, NAE65-9, NAC80-9 | | | <img src="../IMAGES/pet.gif"/> | Fradiomycin; Framycetin; Myacyne; Mycifradin; Neloate; Neodecyllin; Neomas; Neomin; Neomycin undecylenate; Nivemycin; Pimavecort; Soframycin; Vonamycin Powder V; Neomixr 325 and neomixr AG 325; Biosol; Mycifradin sulfate; Sofra-Tulle. | This antibiotic can be used effectively against most bacteria that cause skin, eye and outer ear infections. Due to its toxic effects on the kidney and inner ear, it is not used orally or in any situation where it is absorbed into the body. Broad-spectrum antibiotic in topical creams, powders, ointments, eye and ear drops. Also as systemic antibiotic and growth promotor in veterinary use. Cross: streptomycin, gentamycin, framycetin, dihydrostreptomycin, kanamycin, spectinomycin, tobramycin, paromomycin, butirosin, bacitracin. ICU. | | | | <a href="PDF/P_InfoEn/N-001.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/N-001.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/N-001.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/N-001.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>66</sub>H<sub>103</sub>N<sub>17</sub>O<sub>16</sub>S | | | NA-23, NAE65-23, NAC80-23 | | | <img src="../IMAGES/pet.gif"/> | Agfivin; Altracin; Ayfivin; Baciquent; Fortracin; Penitracin; Topitracin; Zutracin; Citracin. | Antibiotic agent effective against gram-positive organisms and spirochetes. In products for topical treatment, ear medications and ophthalmic drugs. Common allergen in leg ulcer treatment. May cause systemic contact type dermatitis. Cross: polymyxin B sulfate, neomycin sulfate. ICU | | | | <a href="PDF/P_InfoEn/B-032B.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/B-032B.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/B-032B.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/B-032B.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>6</sub>H<sub>10</sub>O<sub>3</sub> | HEMA (2-Hydroxyethyl methacrylate) | | DS-13,MA-3,MN-4,MP-8, DMP-6,DMS-5,NA-34,NAE65-56, NAC80-55 | | | <img src="../IMAGES/pet.gif"/> | Glycol Methacrylate; beta-Hydroxyethyl Methacrylate; Mhoromer; heme-a; 2-Propenoic acid, 2-methyl-, 2-hydroxyethyl ester; GMA; Ethylene glycol methacrylate. | Methacrylic monomer for use in UV inks, adhesives, lacquers, dental materials, artificial nails, etc. (HEMA). | | | | <a href="PDF/P_InfoEn/H-010.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/H-010.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/H-010.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/H-010.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>5</sub>H<sub>8</sub>O<sub>2</sub> | | | DS-1,MA-1,MP-5, NA-42, DMP-,DMS-1, NAE65-42, NAC80-42 | | | <img src="../IMAGES/pet.gif"/> | Methacrylic Acid Methyl Ester; Methyl-2-Methyl-2-Propenoate; MME; MMA; 2-methylacrylic acid methyl ester; methyl methylacrylate; methyl alpha-methylacrylate; diakon; Methyl-2-methylpropenoate. | This compound is used in acrylic bone cements used in orthopedic surgery, in the production of acrylic polymers, polymethylmethacrylate and copolymers used in acrylic surface coatings, in the manufacture of emulsion polymers, in the modification of unsaturated polyester resins, in the production of higher methacrylates, acrylic fibers, acrylic film, inks, radiation-polymerized impregnants for wood, solvent-based adhesives and binders and as an impact modifier of polyvinyl chloride. It is also used in medicinal spray adhesives, in nonirritant bandage solvents, in dental technology, as a ceramic filler or cement, to coat corneal contact lenses, in intraocular lenses, artificial nails, hearing aids and as a monomer for polymethacrylate resins and in the impregnation of concrete. | | | | <a href="PDF/P_InfoEn/M-013.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/M-013.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/M-013.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/M-013.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>34</sub>H<sub>54</sub>Cl<sub>2</sub>N<sub>10</sub>O<sub>14</sub> | Chlorhexidine digluconate | | | | | <img src="../IMAGES/aq.gif"/> | | | | | | <a href="PDF/P_InfoEn/C-005.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/C-005.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/C-005.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/C-005.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |
| | | C<sub>5</sub>H<sub>8</sub>O<sub>2</sub> | | | MN-11,MP-1,NA-39, NAE65-39, NAC80-39 | | | <img src="../IMAGES/pet.gif"/> | Carbonyl Ethylene; 1-propenoic acid, ethyl ester; Ethyl Propenoate; Acrylic Acid Ethyl Ester; Ethoxycarbonylethylene; 2-Propenoic Acid Ethyl Ester; Ethyl 2-Propenoate. | This compound is used in the manufacturing of acrylic resins for use in paint formulations, industrial coatings and latexes, in the manufacturing of plastics such as ethylene ethyl acrylate and in the manufacturing of poly- acrylate elastomers and acrylic rubber. It is also used in the forming of denture materials, water emulsion vehicle for paints, textiles and paper coatings, leather finishes, resins or adhesives and lends flexibility to hard films (EA). | | | | <a href="PDF/P_InfoEn/E-004.pdf" Target="_blank">English</a> | <a href="PDF/P_InfoFr/E-004.pdf" Target="_blank">French</a> | <a href="PDF/P_InfoSp/E-004.pdf" Target="_blank">Spanish</a> | <a href="PDF/MSDS/E-004.pdf" Target="_blank">SDS</a> | <a href="PDF/TestFrm/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-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/IMP-1000.pdf" Target="_blank">English</a> | <a href="PDF/TestFrm/Prev/IMP-1000.pdf" Target="_blank">Previous Year</a> | |