Medical chemical reagent such as CMC, PV8, PV9, 5APB.
Sodium Carboxymethyl Cellulose Cmc And Polyanionic Cellulose Pac.
We ultra febtech - an iso 9001:2008 certified company engaged in manufacturing of cmc plants machinery to convey the material.First cellulose react with caustic to form alkali cellulose then react with mono chloro acetic acid or it’s salt from sodium carboxy methyl cellulose. During the reaction of alkali cellulose with etherification agents and in the subsequent reactions, sodium chloride (common salt) is produced as a major by-product. This is washed out together with any other byproducts or, in the case of technical-grade nacmc, left in the product. The dried cellulose ethers are then processed into granular or powder products and in some cases modified with other additives.
We Ultra Febtech - An ISO 9001:2008 Certified Company Engaged in Manufucturing of CMC plants to Convey the Material. First cellulose react with caustic to form alkali cellulose then react with mono chloro acetic acid or it’s salt from sodium carboxy methyl cellulose. During the reaction of alkali cellulose with etherification agents and in the subsequent reactions, sodium chloride (common salt) is produced as a major by-product. This is washed out together with any other byproducts or, in the case of technical-grade NaCMC, left in the product. The dried cellulose ethers are then processed into granular or powder products and in some cases modified with other additives. NaOH Generally the reaction are as follows Solvent Cellulose + caustic - alkali cellulose Alkali cellulose + MCA ------ Na CMC + NaCl MACHINERY LIST Reactor Dryer Feeder Ultrafine Grinder With Accessories Centrifugal Siever Nauta Mixer Rotary Siever Dust Collector Ribbon Blender Washing Unit Filtration Unit Vacuum Dryer Distillation Column Water Chilling Plant Miscellaneous Pipe Lines
Guar gum powder, Xanthan gum, Gelatin, Agar, Carrageanan, Sodium algimate, Locust bean gum, CMC, PGA
Cellulose , Hpmc , Cmc , Mhec , Rdp ,pva.
Carboxymethyl cellulose and polyanionic cellulose (cmc/pac).Transportation and shipment
CMC, PAC, Carboxymethyl Cellulose, Polyanionic Cellulose.
Triacetin, Acetyl tributyl citrate, Tributyl citrate, CMC.
Application and features: Type ms, hs and hhs pumps are cantilevered, horizontal, centrifugal slurry pumps. They are designed for handling abrasive, high density slurries in the metallurgical, mining, coal, power, building material and other industrial departments etc. The pumps of this type also may be installed in multistage series. The frame plates for type ms, hs pumps are made of interchangeable, hard metal or pressure moulded elastomer liners. The impellers are made of hard metal or pressure moulded elastomer liners. The frame plate liner and impeller for hhs pump are made of hard metal only. The shaft seal for type ms, hs and hhs pumps is gland seal or centrifugal shaft seal. The discharge branch can be positioned at intervals of 45¡ã by request and oriented to any eight positions to suit installations and applications.
Type vs and vsr pumps are vertical, centrifugal slurry pumps submerged in sump to work. They are designed for delivering abrasive, large particle and high density slurries. These pumps have no need of any shaft seal and sealing water. They can also be operated normally for insufficient suction duties. Wet parts of type vs pump are made of abrasion-resistant metal. All parts of type vsr pump immersed in liquid are lined with rubber outer liner. They are suited to transport non-edge angle abrasive slurry. The type with¡°l¡±is a sump pump of extension shaft series, which is suited for the working condition of deeper level. The guide bearing construction is added to the pump on the basis of the standard pump, so the pump is with both more steady operation and wider application range, but flushing water should be attached to the guide bearing.
Purity : 99%Min Water lnsoluble : 0.05%Max Ca & Mg : 0.15%Max Chloride : 0.35%Max FE : 0.002%Max Moisture : 0.20%Max Whiteness : 85Min Bulk density : 1.2-1.5 Residue on 20Mesh : None Residue on bomesh : 3%Max
Purity : 99.2%Min Chloride : 0.7%Max Sulphate : 0.003%Max Water Insoluble : 0.004%Max B.D : 0.6+/-0.01 Residue on 20Mesh : NoNe Residue on 60Mesh : 6%Max
NaoH : 98%Min NaCO3 : 1%Max NaCL : 1%Max Fe2O3 : 0.01%Max
Purity : 94%Min P2O5 : 56%Min Phase I Content : 10_20 Ph Value(1% Solution) : 0.015%Max Whiteness : 9.2-10 Residue ON 20Mesh : 90%Min Residue ON 40Mesh : None Residue ON 80Mesh : 5%Max Residue ON IeoMesh : 30%Max, 80%Min
Purity : 55%Min DS : 0.5-0.7 PH : 8-11.5 Water : 10% Viscosity : 5-6 Solubility : Soluble in water Residue on 30MESH : None
Sodium hydrosulfite Purity: 99.0% Min. Remain Thiourea: . 0.1% Max Moisture:. 0.05% Max Iron(Fe): 10ppm Max. Sulphate: 0.17% Max. 500kg and 1000kg Containning bags 2) 100kg or 160kg drums 3) 50kg fiber drums 4) 25kg or 50kg plastic bags inner two layers 5) 25kg kraft paper compound plastic bags
Zirconium silicate, carboxy methyl cellulose, cmc.
Hot sale carboxymethylcellulose sodium price sodium carboxymethylcellulose Product Name Hot sale carboxymethylcellulose sodium price sodium carboxymethylcellulose Appearance White crystalline powder Certification ISO Application Food additives Keywords cmc;CAS 9004-32-4;Carboxymethylcellulose sodium powder Storage Keep in a cool, dry, dark location in a tightly sealed container or cylinder. Shelf Life 24 Months What is Carboxymethylcellulose sodium? Carboxymethyl cellulose (CMC) or cellulose gum is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone. It is often used as its sodium salt, sodium carboxymethyl cellulose. CMC is used in food under the E number E466 as a viscosity modifier or thickener, and to stabilize emulsions in various products including ice cream. It is also a constituent of many non-food products, such as toothpaste, laxatives, diet pills, water-based paints, detergents, textile sizing, and various paper products.
Brass components, precision turned component cmc/vmc parts.Clearing / forwarding