Monel 401 has excellent strength and plasticity, and has good pressure processing performance in both cold and hot states. It is a corrosion-resistant alloy with large dosage, wide application and excellent comprehensive performance. The alloy has excellent corrosion resistance in HF and F2 media, and is one of the few important materials that can withstand hydrofluoric acid. An important feature of this alloy is that it generally does not produce stress corrosion cracks and has good cutting performance. A kind of Monel alloy, its alloy structure is a high-strength single-phase solid solution, 3 a nickel-based alloy similar to Monel 400, and the corrosion resistance of the metal is fundamentally obtained by hindering the migration of charged particles through the discharge process of hydrogen ions. Obtained, the addition of 30% Cu by mass fraction minimizes the corrosion rate of TH, Ni in F, Cl and other halogen element ionic media, and the higher the Cu content, the better the resistance to sulfuric acid and phosphoric acid. Adding mass fraction to Monel 401 55% Cu improves the corrosion resistance of the alloy in reducing acids. Application fields: Wirewound Resistors bimetal contact Electrical and Electronic Applications Marine Engineering Chemical and Hydrocarbon Processing Equipment petrol and fresh water tanks Distiller degas heater Boiler feed water heaters and other heat exchangers Valves, pumps, shafts, fittings and fasteners Industrial heat exchanger Chlorinated solvents Crude distillation tower We can provide the following the form:Monel alloy401 coil; Monel alloy 401 strip;Monel alloy 401 plate; Monel alloy 401 sheets; Monel alloy 401 tube; Monel alloy 401 pipe;Monel alloy 401 flat; Monel alloy 401 bar UNS:N04401
Cobalt acetate is a moderately water soluble crystalline cobalt source That decomposes to cobalt oxide on heating. It is generally immediately Available in most volumes. All metallic acetates are inorganic salts containing A metal cation and the acetate anion, a univalent (-1 charge) polyatomic ion Composed of two carbon atoms ionically bound to three hydrogen and two Oxygen atoms (symbol: ch3coo) for a total formula weight of 59.05. Acetates are excellent precursors for production of ultra high purity compounds, Catalysts, and nanoscale materials. [synonyms] Cobalt(ii) acetate; acetic acid, cobalt; bis(acetato)cobalt; cobalt(2+) acetate; cobalt diacetate; cobalt, ethanoic acid
IoLine Tris Compatible pH Electrodes Iodine glass pH electrodes for the most demanding applications IoLine-TrisB IoLine Tris Compatible pH Electrodes Description The IoLine Tris compatible pH electrodes use a patented three chamber system with an iodine reservoir in the iodine/iodide reference electrode. The standard hydrogen electrode has proven too difficult in practical use to gain more than a mere theoretical importance. The Ag/AgCl reference system, which is the most common reference system, can cause measuring instabilities originating from potential variations with changing temperature or reactions between silver ions and the measuring solution in the area of the diaphragm. IoLine pH electrodes, in contrast, have the advantage of a much lower temperature sensitivity and a metal ion free reference system. IoLine-TrisB IoLine Tris Compatible pH Electrodes Features * Unique iodine/iodide reference system * Tris buffer compatible * Exchangeable bridge electrolyte * Integrated refill port * Excellent for a wide range of applications IoLine-TrisB IoLine Tris Compatible pH Electrodes Specifications * pH Range: 0 to 14 * Temperature Range: 23 to +212°F (-5 to +100°C) * Shaft: Glass * Zero Point: pH = 7.00 ±0.25 * Reference System: iodine/iodide * Type of Membrane Glass: A
IoLine High Performance pH Electrodes Iodine glass pH electrodes with temperature sensor IoLine-HPB IoLine High Performance pH Electrodes Description The IoLine high performance pH electrodes use a patented three chamber system with an iodine reservoir in the iodine/iodide reference electrode. The standard hydrogen electrode has proven too difficult in practical use to gain more than a mere theoretical importance. The Ag/AgCl reference system, which is the most common reference system, can cause measuring instabilities originating from potential variations with changing temperature or reactions between silver ions and the measuring solution in the area of the diaphragm. IoLine pH electrodes, in contrast, have the advantage of a much lower temperature sensitivity and a metal ion free reference system. IoLine-HPB IoLine High Performance pH Electrodes Features * Unique iodine/iodide reference system * Tris buffer compatible * Exchangeable bridge electrolyte * Integrated refill port * Excellent for a wide range of applications * Integrated temperature sensor IoLine-HPB IoLine High Performance pH Electrodes Specifications * pH Range: 0 to 14 * Temperature Range: 23 to +212'F (-5 to +100'C) * Shaft: Glass * Zero Point: pH = 7.00 ±0.25 * Reference System: iodine/iodide
IoLine Tris Compatible pH Electrodes Iodine glass pH electrodes for the most demanding applications IoLine-TrisB IoLine Tris Compatible pH Electrodes Description The IoLine Tris compatible pH electrodes use a patented three chamber system with an iodine reservoir in the iodine/iodide reference electrode. The standard hydrogen electrode has proven too difficult in practical use to gain more than a mere theoretical importance. The Ag/AgCl reference system, which is the most common reference system, can cause measuring instabilities originating from potential variations with changing temperature or reactions between silver ions and the measuring solution in the area of the diaphragm. IoLine pH electrodes, in contrast, have the advantage of a much lower temperature sensitivity and a metal ion free reference system. IoLine-TrisB IoLine Tris Compatible pH Electrodes Features * Unique iodine/iodide reference system * Tris buffer compatible * Exchangeable bridge electrolyte * Integrated refill port * Excellent for a wide range of applications IoLine-TrisB IoLine Tris Compatible pH Electrodes Specifications * pH Range: 0 to 14 * Temperature Range: 23 to +212'F (-5 to +100'C) * Shaft: Glass * Zero Point: pH = 7.000.25 * Reference System: iodine/iodide * Type of Membrane Glass: A
Mainly used in electroplating industry, is the main nickel salt of electroplated nickel and chemical nickel, also the source of metal nickel ions, can be in the plating process In the dissociation of nickel ions and sulfate ions. Curing oil production is the catalyst for the hydrogenation of oils and fats, the pharmaceutical industry for the production of vitamin c oxidation reaction Agent. In the inorganic industry for the production of other nickel salts such as: nickel sulfate, nickel oxide, nickel carbonate and other major raw materials. Printing and dyeing industry for the production of phthalocyanine blue blue complexing agent, used as a dyes dye agent. Also can be used to produce nickel-cadmium batteries.
Titanium electrode is a kind of electrode that uses metal titanium as the substrate, and finally forms an oxide coating with electrocatalytic activity on the titanium substrate by sintering and oxidation. It is also known as a Dimensionally Stable Anode(DSA for short) due to its physical dimension stability when in . Features 1. Strong corrosion resistance, durability and high temperature resistance, high stability, can be used in various media; 2. Lower cost than pure gold and pure platinum anodes, but has similar electrochemical performance; 3. The overpotential for the oxygen evolution reaction is very high, and the overpotential for the hydrogen evolution reaction is very low; 4. It is appropriate for DSA insoluble anodes and has the properties of high output current density, uniform conduction, and low loss. The preparation methods of titanium electrodes are as follows: Thermochemical decay The thermal decomposition process typically involves dissolving metal salt compounds in organic solvents or aqueous solutions, coating the solution on a titanium substrate, heating to volatilize the solvent, and then sintering at a high temperature to decompose and oxidize the salts to produce an oxide coating. Coating techniques include rolling, brushing, and spraying. Sol-gel technique In the sol-gel process, metal organic compounds (such metal alkoxides) or inorganic compounds are dissolved in a solvent to produce active monomers, which are then polymerized to form sol and coated on the titanium substrate. The film is sintered at a specific temperature after being dried to create a gel film in order to provide a coating. Electrodeposition Coated titanium electrodes are created using the electrodeposition process. Typically, a titanium cathode is used as opposed to an insoluble electrode as an anode. The appropriate metal ions are present in the solution during electrolysis, and these ions are then deposited on the titanium cathode. following drying, high temperature By sintering, the coated titanium electrode is produced. Sputtering process The sputtering process produces a dense coating that has a powerful bonding force with the substrate. However, this approach is unsuitable for industrialized large-scale manufacturing because it necessitates the use of specialized equipment, the preparation procedure is very challenging, and the mother liquor is squandered considerably.
