Azerbaijani handmade carpets of various designs, woven from 100% pure wool, price 585 usd per 1 sq.m.
Carpets.
Carpets.
Carpets..
Persian Carpets..
Carpets.
Handmade carpet.
Machine made carpets.
Distemper, Vinyle, Emulsion, Plastic Emulsion, Exterior, Wall Putty, Pioneer In Texture Paints In Pakistan, Thinner, Primers, Enamels, Matt Enamels.
SVEZA Deck 350 is a special film faced plywood with a grid pattern intended for slab formwork. It comes with 25, 50, and 100 mm grid patterns. These types of lines simplify plywood marking and cutting, as well as rebar placement. This allows to reduce labor costs at the construction site. Production process of plywood with layout grid is patented.* SVEZA Deck 350 is a high-strength plywood made of 100% birch veneer, all layeers are smooth, without cavities inside. Its edges are coated with special acrylate-based waterborne paint with low water permeability. SVEZA Deck 350 surface is smooth, and coated with wear resistant film (wearing capacity is 350 Taber test rotations). * Registered in the State Register of Utility Models RF 01.20.15, RF patent number 150519. Standard sizes: 1220 2440 8mm 1250x2500x18mm 1250x2500x21mm
Petrochemical products:ldpe, hdpe, pp, pvc, pet, methanol, bitumen, etc, food industry:, lime juice, jam, pickle, tomato paste, saffron, carpet.
Water-dispersing acryl filler. It is used for elimination of surface defects and levelling for further painting. Filler is highly durable, dries fast, has no odour, soluble in water and good sanding properties. Expenditure: 0,5-1,0 kg per 1m2. Drying time: 4-8 hours at 200C.
Adhesive is prepared on the basis of acryl binder and forms durable adhesive coating. It is used in internal and external works of adhesion of ceramic tiles, gluing wood, cardboard, paper. This glue also is quite essential in housekeeping during small repair works. Drying time: 24 hours at 200C
Acryl emulsion based and used for binding upper substrata layers (plastering, concrete, brick), ensuring adhesion to subsequent paint layer. It contains antimicrobial component slowing down growth of bacteria and mould. Solvent: Water. Expenditure: 1kg per 30-40m2 in single layer. Drying time: 2 hours at 200C
Stable development of our country directly depends on competitive ability of domestic products, which, in its turn, depends on quality control (i.e. level of testing labs). Specificity of analytic labs requires special system of their competitiveness recognition. Their accreditation synthesizes general approaches to accreditation of testing labs and peculiarities of analytic operations. In relation with it the actual is application of international standards: 1.management system of lab quality and application of standards 2. Lab-information systems in quality management system 3. Modern analytic equipment and automatization of separate processes in lab activity. Karvan-L” company lab repeatedly passed accreditation in Azerbaijan State Committee of Attestation, accreditation certificate No. AZ 031.01.11.02.49.07 dated on 14.03.2007. Lab possesses modern equipment for conduction of wide range of analysis in oil chemistry and oil-chemical and organic synthesis, as well as of initial products of synthesis. Particularly, Karvan-L” company lab is fitted by up-to-date machinery for quality control of oily acids, and initial raw material for production of paintwork materials based on pentophtalein, acryl, vinilcetate, polyurethane and etc. film-making clay compositions, driers, initial components of alkyds, acryl, and polyurethane enamels and emulsions, water and oil soluble inhibitors of corrosion, deemulsifiers, additions to oils, oil solvents, aromatic carbohydrates, processed oils and paints, plant oils, sewage of analogical production.
Mono-ethylene glycol - or MEG - is a vital ingredient for the production of polyester fibres and film, polyethylene terephthalate (PET) resins and engine coolants. End uses for MEG range from clothing and other textiles, through packaging to kitchenware, engine coolants and antifreeze. Polyester and fleece fabrics, upholstery, carpets and pillows, as well as light and sturdy polyethylene terephthalate drink and food containers originate from ethylene glycol. The humectant (water attracting) properties of MEG products also make them ideal for use in fibres treatment, paper, adhesives, printing inks, leather and cellophane. MEG is a colourless, odourless liquid with a syrup-like consistency. 55% of MEG is used to make polyester fibres. 25% of MEG is used in polyethylene terephthalate - or PET - packaging and bottles.
It has been decades that architectural glass sheets have been utilized as a construction material. Over this time, manufacturers have achieved a significant success in terms of fabrication and finishing technology, bringing the glass properties almost to perfection. Increasingly pronounced in glass industry is the nanotechnology sector, which renders it specific and extraordinary properties in terms of operation and aesthetics, thus opening new bright perspectives for architects and designers. It would be fair to say that it was new safe multilayer glass items that helped discover most significant improvements of properties and capabilities of glass as a construction material. All valuable operation and technical properties of such glass are achieved by using a “sandwich” principle, i.e. by creating a multilayer composite structure with a polymer layer in between. It is still difficult to appreciate the whole significance and implications of this development. Regrettably, many issues of perfecting the technology and equipment that helps create multilayer glass (triplex production equipment) have been outside researchers’ focus of attention, thus hindering the practical development across the entire range of safety glass application. Most new properties are still unknown and require serious theoretical and experimental developments to uncover. Among these: detailed study of formation and development of multilayer glass production technology based on innovative polymer materials with a higher strength compared to existing materials, research of properties and application of hybrid structures based on new composite elements. The combination of fragile glass and plastic materials (for instance: polycarbonate and glass sandwich panels, glass and acryl tile etc.) enables to optimize the functionality of multi-layer shutterproof glass. It is beyond doubt that ongoing researches in this area will boost the improvement of existing and development of new approaches to designing and creating multilayer glass machines for industrial-scale production.
1 Butadiene 1-3, Crude C4, Butene -1 2 Methyl tert-butyl ether (MTBE) 3 Iso-butane (iC4) 4 Ammonia 5 Phtalic - Anhydride 6 Melamine Crystal 7 Methanol 8 Paraxylene 9 Orthoxlyene 10 Mixed Xylene 11 Urea 12 Monoethylene Glycol (MEG) 13 Diethylene Glycol (DEG) 14 Anti-freeze 15 Monopropylene Glycol (Chemical Grade) â?? (MPG) 16 Sodium hypochlorite 17 Caustic soda 18 Paraffin 19 Petroleum jelly (Vaseline) 20 Formaldehyde (formalin) 21 Etoxylated alchole 7 mol 22 PEG 400 Chemical Grade 23 SLES 70 24 LABSA 25 Betaein 26 Oleic Acid 27 Loramide 29 Carbon Black 30 Methyl Ethyl Ketone (MEK) 31 Secondary Butyl Alcohol 32 Toulene Diisocyanate (TDI) 33 Methyl Diisocyanate (MDI) 34 Nitric Acid 35 Chloridric Acid 36 Styrene Monomer 37 Phosphoric acid 38 Sulfuric Acid 39 Diammonium Phosphate 40 Granular Sulfur 41 Ammonium Sulphate 42 Dioctyl Phthalate (DOP) 44 Isobutyl Acetate 45 Triacetin 46 Diethyl Ether 47 Sodium Sulfite 48 Lacquer Nitrocellulose 49 Methyl Acetate 50 N-Butyl Acetate 52 Sodium Metoxide 53 Nitrodor 54 Nitrocellulose (Type A) 55 Diethyl Phthalate 56 Dioctyl Adipate 57 Dioctyl Terephthalate 58 Dioctyl Sebacate 59 Dibutyl Phthalate 60 Dimethyl phthalate 61 Phosphoric Acid 62 Di Calcium Phosphate 63 Phenyl Acetic Acid 64 Ammonium Nitrate Sulfate 65 Diisobutyl Phthalate 66 Sodium Nitrite 67 Acetyl Tri Butyl Citrate 68 Acetyl Tri Ethyl Citrate 69 Ethyl Acetate 70 Ethyl Cellulose 71 Cellulose acetate 72 Hydrogen Peroxide 73 Ethanol 74 Butyl Acetate 75 Linear Alkyl Benzene(LAB) 76 Heavy Alkylate(HAB) 77 Normal-Paraffin(NP) 78 Alkyd Resin 79 Unsaturated polyester Resin 80 Phenolic Resin 81 Bakelite 82 Fatty Acid 83 Solid Epoxy Resin 84 Furani Resin 85 Amino Resin 86 Vinyl Ester Resin 87 Saturated Polyester Resin 88 SB Acrylic Resin 89 Emulsion 90 Morpholine 91 N-formyl morpholine 92 Amino imidazoline 93 Amido imidazoline 94 Triazine 95 Carboxylic acid 96 Maleic Anhydride 97 Sodium Metabisulfite 98 Sodium Sulfite 99 Catalyzed Sodium Sulfite
