Sodium Carbonate or Soda Ash It is used to manufacture a variety of glass products such as container glass for packaging, float glass for buildings and automobiles, fiber glass for insulation, etc.
in Soap and Detergent It is used as a filler, pH adjuster, agglomerate aid, and water softener to manufacture soaps and detergents.
It is also used to prepare sodium silicate, in photograph development process as a pH regulator, swimming pools to neutralize the excess chlorine, brick industry as a wetting agent, processing non- ferrous metals, etc.
Sodium Carbonate or Soda Ash It is used to manufacture a variety of glass products such as container glass for packaging, float glass for buildings and automobiles, fiber glass for insulation, etc. in Soap and Detergent It is used as a filler, pH adjuster, agglomerate aid, and water softener to manufacture soaps and detergents. It is also used to prepare sodium silicate, in photograph development process as a pH regulator, swimming pools to neutralize the excess chlorine, brick industry as a wetting agent, processing non- ferrous metals, etc.
Sisal fibre is derived from the leaves of the plant. It is usually obtained by machine decortications in which the leaf is crushed between rollers and then mechanically scraped. The fibre is then washed and dried by mechanical or natural means. The dried fibre represents only 4% of the total weight of the leaf. Once it is dried the fibre is mechanically double brushed. The lustrous strands, usually creamy white, average from 80 to 120 cm in length and 0.2 to 0.4 mm in diameter
Sisal fibre is fairly coarse and inflexible. It is valued for cordage use because of its strength, durability, ability to stretch, affinity for certain dyestuffs, and resistance to deterioration in saltwater. Sisal is used by industry in three grades:
The lower grade fibre is processed by the paper industry because of its high content of cellulose and hemicelluloses.
The medium grade fibre is used in the cordage industry for making: ropes, baler and binders twine. Ropes and twines are widely employed for marine, agricultural, and general industrial use.
The higher-grade fibre after treatment is converted into yarns and used by the carpet industry.
The fibre is also used for non-woven matting, brushing and roving.
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Glacial acetic acid (CH3COOH) is commonly used as analytical reagents, general-purpose solvents, non-aqueous titration solvents, chromatographic analysis reagents, and organic synthesis. used for the synthesis of vinyl acetate, cellulose acetate, acetate, metal acetate and halo-acetic acid. It is also an important raw material for pharmaceuticals, dyes, pesticides and organic synthesis.
Application: Mainly used in the production of vinyl acetate monomer, then acetic anhydride and ester production.
Packing: 30kg Drum, 215kg Drum, 1000 Kg IBC, ISO Tank.
Item Description
Acetic acid: Min. 99.8%
Color(APHA),Pt-Co: Max. 10
Acetaldehyde: Max. 0.05%
Formic acid: Max. 0.06%
Water: Max. 0.15%
Iron(Fe): Max. 0.0004%
Residue after evaporation: Max. 0.01%
Permanganate: Min. 30min
Dimethylformamide (DMF) is a clear, colorless, hygroscopic liquid with a slight amine odor. The solvent properties of DMF are particularly attractive because of the high dielectric constant, the aprotic nature of the solvent, its wide liquid range and low volatility. It is frequently used for chemical reactions and other applications, which require a high solvency power. The product is known as a universal solvent. The high solubility of polyacrylonitrile in DMF, together with the good miscibility of DMF in water makes DMF the preferred solvent to produce acrylic fibers. Also, the spinning of polyurethane based elastomers is performed from DMF based solutions. Another significant application is the use of DMF as a solvent for polyurethane-based coatings on leather and artificial leather fabrics.
Application: It is used in the chemical industry as a solvent, an intermediate, and an additive; for example, in the production of pharmaceuticals, synthetic fibers, resins, agrochemicals, petrochemical industry etc.
MEG is a clear, colourless, virtually odourless, and slightly viscous liquid. It is miscible with water, alcohols, and many organic compounds, and has the molecular formula C2H6O2, CAS: 107-21-1. It has a specific gravity of 1.115 and a flash point of 110°C.
Application: It is an important raw material for industrial applications. MEG is utilized in the manufacture of polyester (PET) resins, films, fibers, antifreezes, coolants, aircraft anti-icer and deicers and solvents.
It is also utilized as raw material for paper industry, polyester Resins, adhesives and inks, chemical Intermediates, Heat Transfer, Fluids.
Wood Plastic Composites (WPCs) are composite materials made of wood fiber or wood flour and thermoplastics such as polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), or polylactic acid (PLA).� They can also contain other ligno-cellulosic and/or inorganic filler materials.
WPCs are crucial and potential engineering wood products that have been extensively employed in the fields of landscape, transportation, municipal engineering, and building construction.� They have gradually been used to replace conventional wood-based composites.� WPCs are mainly produced by the thermoplastic polymers and the biomass particles and fibers from forestry and agricultural wastes (wood, bamboo, straw, stalk, husk, and bast).
The WC line of wood-plastic composites combines the pleasing look of wood with the functionality and manufacturing ease of plastics.� These composites blend fine wood particles with renewable, biodegradable, reclaimed, recycled, or virgin plastic materials to make firm, smooth pellets for convenient handling and further processing.� The wood fibers are obtained from waste materials generated by lumber manufacturers, which are then processed to produce a consistent reinforcing product.