Chemical Powder

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Aluminium chloride is an inorganic compound with the chemical formula AlCl3. It is a white, crystalline solid that is highly soluble in water. Aluminium chloride is a versatile chemical with various industrial applications due to its unique properties and reactivity.

The production of aluminium chloride typically involves the reaction of aluminium metal with hydrogen chloride gas. The resulting compound is a volatile solid that sublimes at high temperatures. Aluminium chloride can also be synthesized by treating aluminium hydroxide or aluminium oxide with hydrochloric acid.

One of the primary applications of aluminium chloride is as a catalyst in organic synthesis. It is widely used in the chemical industry for various reactions, including Friedel-Crafts acylation and alkylation reactions. Aluminium chloride acts as a Lewis acid, which can accept electron pairs from other molecules, facilitating chemical reactions and promoting the formation of new compounds. It is particularly useful in the production of fragrances, dyes, pharmaceuticals, and polymers.

In addition to its catalytic properties, aluminium chloride is used as an additive in the production of polymeric materials. It is employed as a polymerization initiator and a modifier in the synthesis of various polymers, including polyethene and polypropylene. Aluminium chloride can alter the molecular weight, structure, and properties of polymers, leading to desired characteristics such as increased strength, flexibility, and heat resistance.

Furthermore, aluminium chloride is utilized in the production of certain pharmaceuticals and drugs. It serves as a starting material or intermediate in the synthesis of various medications, including antiperspirants, antacids, antihistamines, and anti-cancer drugs. Aluminium chloride is also used in the formulation of vaccines and other medical products.

In conclusion, aluminium chloride is a versatile chemical with numerous industrial applications. Its role as a catalyst in organic synthesis, its usage in the petroleum industry, and its contributions to polymer production highlight its importance in various sectors.

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Sodium benzoate is a common food preservative and additive that is widely used in the food and beverage industry. It is the sodium salt of benzoic acid and is known for its ability to inhibit the growth of bacteria, yeast, and mould. Sodium benzoate helps to extend the shelf life of various products and maintain their quality and safety.

One of the primary functions of sodium benzoate is its antimicrobial property. It effectively inhibits the growth of microorganisms by disrupting their metabolic processes. This property makes it a valuable ingredient in a wide range of food and beverage products, including fruit juices, carbonated drinks, pickles, sauces, jams, and dressings. By preventing the growth of spoilage-causing microorganisms, sodium benzoate helps to preserve the freshness and quality of these products.

Sodium benzoate is also used as a pH adjuster and flavour enhancer in certain food and beverage formulations. It can act as a buffering agent, helping to stabilize acidity and maintain the desired pH levels in acidic foods and drinks. Additionally, sodium benzoate can enhance the taste and flavour of certain products by suppressing off-flavours and odours that may develop during storage.

While sodium benzoate is considered safe for consumption, there have been concerns about its potential interaction with certain ingredients, particularly when combined with ascorbic acid (vitamin C). When exposed to heat or acidic conditions, sodium benzoate can form benzene, a compound that is a known carcinogen. However, the formation of benzene is dependent on several factors, including temperature, pH, and the presence of other substances. The use of sodium benzoate in combination with ascorbic acid is regulated to minimize the risk of benzene formation.

In summary, sodium benzoate is a widely used food preservative that helps inhibit the growth of microorganisms and extend the shelf life of various food and beverage products. It serves as an effective antimicrobial agent, pH adjuster, and flavour enhancer.

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Technical grade urea is a chemical compound with the formula CO(NH2)2. It is a solid, crystalline substance that is widely used in various industries for its unique properties and applications. Technical grade urea is primarily distinguished from agricultural or fertilizer-grade urea by its purity and specific manufacturing standards.

The production of technical-grade urea involves the synthesis of urea from ammonia and carbon dioxide in a high-pressure and high-temperature process known as the Haber-Bosch process. This results in the formation of pure urea crystals, which are then further processed to meet the required specifications for technical applications.

One of the main applications of technical grade urea is as a raw material in the production of resins, plastics, and adhesives. Urea-formaldehyde resins, for example, are widely used in the manufacturing of plywood, particleboards, laminates, and moulded products. These resins offer excellent bonding properties, high strength, and water resistance, making them suitable for various industrial and construction applications.

Technical grade urea is also utilized in the production of melamine, which is an important component in the manufacturing of laminates, coatings, and flame-retardant materials. Melamine-formaldehyde resins are known for their high heat resistance, hardness, and durability. They find applications in the automotive, electrical, and construction industries.

Another significant application of technical grade urea is in the production of nitrogen-based fertilizers. Urea fertilizer is widely used in agriculture for its high nitrogen content, which is essential for plant growth and development. It provides a readily available source of nitrogen that can be easily absorbed by plants. Urea is often combined with other nutrients and micronutrients to create balanced fertilizer formulations suitable for various crops and soil conditions.

In addition to its applications in resins, plastics, adhesives, and fertilizers, technical-grade urea finds use in the pharmaceutical industry. It serves as a starting material or intermediate in the synthesis of certain pharmaceutical compounds. Urea has also been used in dermatological treatments for its moisturizing and exfoliating properties.

In conclusion, technical grade urea is a versatile chemical compound with a wide range of applications in various industries. Its role in the production of resins, plastics, adhesives, fertilizers, and livestock feed supplements highlights its importance in manufacturing and agriculture.

Additional Information:

• Production Capacity: 50000 Kg
• Delivery Time: 1-2 days

Product Details:

Technical grade urea is a chemical compound with the formula CO(NH2)2. It is a solid, crystalline substance that is widely used in various industries for its unique properties and applications. Technical grade urea is primarily distinguished from agricultural or fertilizer-grade urea by its purity and specific manufacturing standards.

The production of technical-grade urea involves the synthesis of urea from ammonia and carbon dioxide in a high-pressure and high-temperature process known as the Haber-Bosch process. This results in the formation of pure urea crystals, which are then further processed to meet the required specifications for technical applications.

One of the main applications of technical grade urea is as a raw material in the production of resins, plastics, and adhesives. Urea-formaldehyde resins, for example, are widely used in the manufacturing of plywood, particleboards, laminates, and moulded products. These resins offer excellent bonding properties, high strength, and water resistance, making them suitable for various industrial and construction applications.

Technical grade urea is also utilized in the production of melamine, which is an important component in the manufacturing of laminates, coatings, and flame-retardant materials. Melamine-formaldehyde resins are known for their high heat resistance, hardness, and durability. They find applications in the automotive, electrical, and construction industries.

Another significant application of technical grade urea is in the production of nitrogen-based fertilizers. Urea fertilizer is widely used in agriculture for its high nitrogen content, which is essential for plant growth and development. It provides a readily available source of nitrogen that can be easily absorbed by plants. Urea is often combined with other nutrients and micronutrients to create balanced fertilizer formulations suitable for various crops and soil conditions.

In addition to its applications in resins, plastics, adhesives, and fertilizers, technical-grade urea finds use in the pharmaceutical industry. It serves as a starting material or intermediate in the synthesis of certain pharmaceutical compounds. Urea has also been used in dermatological treatments for its moisturizing and exfoliating properties.

In conclusion, technical grade urea is a versatile chemical compound with a wide range of applications in various industries. Its role in the production of resins, plastics, adhesives, fertilizers, and livestock feed supplements highlights its importance in manufacturing and agriculture.

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Caustic soda prills, also known as sodium hydroxide prills or pellets, are solid, white, and spherical particles of sodium hydroxide. Sodium hydroxide is a strong alkaline compound with the chemical formula NaOH.

Caustic soda prills are produced through the process of crystallization, where a concentrated solution of sodium hydroxide is evaporated under controlled conditions. The resulting solid particles are then formed into prills or pellets for ease of handling, storage, and transport. The prills are uniform in size and have a smooth surface, allowing for efficient dissolution and reaction in various applications.

Caustic soda prills have a wide range of industrial applications due to their strong alkaline properties. One of the primary uses of caustic soda is in the production of chemicals and chemical intermediates. It is a key raw material in the manufacturing of detergents, soaps, and cleaning agents. Sodium hydroxide reacts with fatty acids to form soap molecules, enabling the removal of dirt, oils, and greases from surfaces.

In addition to the detergent industry, caustic soda prills are utilized in the production of various organic and inorganic chemicals. It is commonly employed in the synthesis of dyes, pigments, pharmaceuticals, and explosives. Sodium hydroxide acts as a catalyst or reagent in many chemical reactions, facilitating the formation of desired products.

The textile industry relies on caustic soda prills for various purposes. It is utilized in the mercerization process of cotton, where the fabric is treated with sodium hydroxide to improve its strength, lustre, and dye affinity. Caustic soda is also used in the dyeing and finishing of textiles, as well as in the synthesis of synthetic fibres such as rayon and nylon.

Protective equipment, such as gloves, goggles, and a lab coat, should be worn when working with this chemical. It is essential to avoid contact with the skin, eyes, and clothing and to use proper ventilation to prevent inhalation of caustic fumes. Storage should be in a cool, dry place, away from incompatible substances.

In conclusion, caustic soda prills are an important industrial chemical with a wide range of applications. Their strong alkaline properties make them valuable in the production of detergents, chemicals, pulp and paper, water treatment, and textiles

Additional Information:

• Packaging Details: 50 Kg Bag

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GNFC Ethyl Acetate is a chemical product manufactured by the Gujarat Narmada Valley Fertilizers & Chemicals (GNFC) in Gujarat, India. Ethyl acetate, with the chemical formula C4H8O2, is an organic compound commonly used as a solvent in various industries.

Ethyl acetate is a colourless liquid with a sweet, fruity odour. It is highly miscible with common organic solvents and has a relatively low boiling point, making it a versatile solvent in various industries. GNFC Ethyl Acetate is specifically produced to meet the demanding requirements of customers in terms of purity, consistency, and performance.

One of the significant applications of GNFC Ethyl Acetate is in the coatings and paint industry. It serves as a solvent in the formulation of paints, varnishes, and lacquers. Ethyl acetate provides excellent solvency properties, allowing for the effective dissolution of resins, pigments, and other additives. It evaporates quickly, contributing to the drying process of coatings, and leaves a smooth, glossy finish. GNFC Ethyl Acetate's high purity and consistent quality make it a preferred choice for paint manufacturers.

Furthermore, GNFC Ethyl Acetate finds application in the pharmaceutical and healthcare sectors. It is utilized as a solvent in the production of pharmaceutical formulations, such as tablets, capsules, and topical preparations. Ethyl acetate's solubility properties allow for the efficient extraction and purification of various active pharmaceutical ingredients. It is also employed in the manufacturing of cosmetics, fragrances, and personal care products.

Another significant use of GNFC Ethyl Acetate is in the printing and packaging industry. It is used as a solvent in the production of inks, including flexographic and gravure inks. Ethyl acetate's fast evaporation rate enables rapid drying of the ink, contributing to high-speed printing processes.

GNFC Ethyl Acetate's high purity and consistent quality make it suitable for analytical and laboratory applications as well. It can be used as a solvent in chromatography techniques, sample preparation, and other research and development processes.

In conclusion, GNFC Ethyl Acetate is a high-quality chemical product manufactured by GNFC in Gujarat, India. It finds applications as a solvent in the coatings and paint industry, pharmaceutical and healthcare sectors, printing and packaging industry, and laboratory settings.

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Maleic anhydride is a white crystalline powder with a distinct pungent odour. It is an organic compound and is classified as an unsaturated dicarboxylic acid anhydride. With the chemical formula C4H2O3, maleic anhydride is derived from maleic acid and is widely used in various industrial applications.

The production of maleic anhydride typically involves the catalytic oxidation of benzene or butane. The process involves the use of metal oxide catalysts such as vanadium pentoxide or molybdenum trioxide. Maleic anhydride is obtained as a volatile vapour that is subsequently condensed and solidified into a powdered form.

One of the primary applications of maleic anhydride powder is in the production of unsaturated polyester resins. These resins are widely used in the manufacture of fibreglass-reinforced plastics, coatings, adhesives, and composite materials. Maleic anhydride reacts with polyols to form polyester chains, providing the resins with excellent mechanical strength, chemical resistance, and heat stability.

Maleic anhydride is also used as a raw material in the production of other important chemicals. It serves as a precursor for the synthesis of 1,4-butanediol, which is utilized in the production of polyurethanes, plastics, and solvents. Additionally, maleic anhydride can be converted to maleic acid, fumaric acid, and other derivatives that find applications in the pharmaceutical, agricultural, and food industries.

The reactivity of maleic anhydride extends beyond the field of polymer chemistry. It is commonly employed as a chemical intermediate in the synthesis of various speciality chemicals, including lubricant additives, agricultural chemicals, surfactants, and dyes. Its ability to undergo addition reactions with nucleophiles allows for the introduction of functional groups, enabling the customization of chemical structures to suit specific applications.

In conclusion, maleic anhydride powder is a versatile and reactive compound with diverse applications in the chemical industry. Its ability to form polyester resins, serve as a precursor for other chemicals, and participate in various chemical reactions makes it an essential component in the production of a wide range of products. Despite its reactivity, with proper handling and safety precautions, maleic anhydride contributes significantly to the advancement of numerous industrial processes. 

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GACL Caustic Potash Flakes, available in a 50 kg packaging, are high-quality chemical flakes produced by Gujarat Alkalies and Chemicals Limited (GACL). Caustic Potash, also known as potassium hydroxide (KOH), is a versatile chemical compound with various industrial applications.

GACL Caustic Potash Flakes are widely used in industries such as chemical manufacturing, pharmaceuticals, detergents, and cosmetics. It is highly valued for its strong alkaline properties and the ability to react with different substances.

One of the significant applications of GACL Caustic Potash Flakes is in the production of liquid soaps and detergents. It acts as a surfactant, aiding in the removal of dirt, grease, and stains. Caustic Potash enhances the cleaning efficiency of these products and helps maintain alkaline pH levels.

In the chemical industry, GACL Caustic Potash Flakes are used as a raw material for the production of potassium-based compounds. It serves as a precursor for the synthesis of various chemicals, including potassium carbonate, potassium phosphates, and potassium silicates. Caustic Potash is also employed in the manufacture of potassium salts and fertilizers.

The pharmaceutical industry utilizes GACL Caustic Potash Flakes for the production of medicines and drugs. It is used in the formulation of certain medications, including antacids, laxatives, and potassium supplements. Caustic Potash is also utilized in the synthesis of pharmaceutical intermediates and active pharmaceutical ingredients (APIs).

GACL Caustic Potash Flakes are also found in cosmetic and personal care products. It is used in the production of skincare formulations, hair dyes, and shampoos. Caustic Potash aids in pH adjustment, emulsification, and saponification processes, ensuring product stability and performance.

In summary, GACL Caustic Potash Flakes, available in a 50 kg packaging, are versatile chemical flakes with diverse industrial applications. They are used in the production of liquid soaps, detergents, pharmaceuticals, cosmetics, and various chemical compounds. 

Additional Information:

• Packaging Details: 25 Kg Bag

Product Details:

Sodium benzoate is a common food preservative and additive that is widely used in the food and beverage industry. It is the sodium salt of benzoic acid and is known for its ability to inhibit the growth of bacteria, yeast, and mould. Sodium benzoate helps to extend the shelf life of various products and maintain their quality and safety.

One of the primary functions of sodium benzoate is its antimicrobial property. It effectively inhibits the growth of microorganisms by disrupting their metabolic processes. This property makes it a valuable ingredient in a wide range of food and beverage products, including fruit juices, carbonated drinks, pickles, sauces, jams, and dressings. By preventing the growth of spoilage-causing microorganisms, sodium benzoate helps to preserve the freshness and quality of these products.

Sodium benzoate is also used as a pH adjuster and flavour enhancer in certain food and beverage formulations. It can act as a buffering agent, helping to stabilize acidity and maintain the desired pH levels in acidic foods and drinks. Additionally, sodium benzoate can enhance the taste and flavour of certain products by suppressing off-flavours and odours that may develop during storage.

While sodium benzoate is considered safe for consumption, there have been concerns about its potential interaction with certain ingredients, particularly when combined with ascorbic acid (vitamin C). When exposed to heat or acidic conditions, sodium benzoate can form benzene, a compound that is a known carcinogen. However, the formation of benzene is dependent on several factors, including temperature, pH, and the presence of other substances. The use of sodium benzoate in combination with ascorbic acid is regulated to minimize the risk of benzene formation.

In summary, sodium benzoate is a widely used food preservative that helps inhibit the growth of microorganisms and extend the shelf life of various food and beverage products. It serves as an effective antimicrobial agent, pH adjuster, and flavour enhancer.

Product Details:

Sodium sulfate anhydrous is an inorganic compound with the chemical formula Na2SO4. It is a white, crystalline powder that is highly soluble in water. Sodium sulfate is widely used in various industries for its diverse range of applications, including in detergents, textiles, glass manufacturing, and chemical synthesis.

One of the primary uses of sodium sulfate anhydrous is in the detergent industry. It is commonly added to laundry detergents as a processing aid and filler. Sodium sulfate helps to improve the flow and uniform distribution of detergent powders, ensuring consistent cleaning performance. Additionally, it can act as a diluent to reduce the overall cost of the formulation.

In the textile industry, sodium sulfate is utilized in the dyeing and printing of fabrics. It helps to enhance the absorption of dyes into the textile fibres, resulting in vibrant and even colouration. Sodium sulfate also acts as a levelling agent, promoting uniform dye penetration and preventing uneven dyeing.

Sodium sulfate anhydrous is a key component in the production of glass. It serves as a flux, reducing the melting temperature of silica and facilitating the formation of glass products. Sodium sulfate also helps to remove impurities and prevent the formation of bubbles or streaks in glass manufacturing.

Another application of sodium sulfate is in chemical synthesis. It is used as a reagent and raw material for the production of various chemicals and compounds. Sodium sulfate can be utilized in the synthesis of sodium sulfite, sodium sulfide, sodium bisulfite, and other sodium salts. It plays a crucial role in the manufacturing of pharmaceuticals, dyes, pigments, and detergents.

In summary, sodium sulfate anhydrous is a versatile compound with a wide range of industrial applications. It is utilized in detergents, textiles, glass manufacturing, and chemical synthesis. Sodium sulfate aids in detergent formulation, textile dyeing, and glass production, and serves as a precursor for various chemicals.

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Founded in 1966, Prakash Chemicals is a Global Market Leader in chemical distribution with a product portfolio of over 250 products and a highly diverse supplier base. Embracing a culture of innovation, we have delivered specialized solutions to more than 4,000 customers across various industries. Our commitment to safety and sustainability has helped us set new benchmarks for entrepreneurial integrity and futuristic thinking.

Product Details:

Founded in 1966, Prakash Chemicals is a Global Market Leader in chemical distribution with a product portfolio of over 250 products and a highly diverse supplier base. Embracing a culture of innovation, we have delivered specialized solutions to more than 4,000 customers across various industries. Our commitment to safety and sustainability has helped us set new benchmarks for entrepreneurial integrity and futuristic thinking.

Product Details:

Sucralose powder is a zero-calorie artificial sweetener that is widely used as a sugar substitute in the food and beverage industry. It is derived from sucrose through a process that chemically modifies the structure, resulting in a sweetener that is intensely sweet but without the calories associated with sugar.

Sucralose is approximately 600 times sweeter than sugar, making it a highly potent sweetening agent. It offers a similar taste profile to sugar, with a clean, sweet flavour and no bitter aftertaste commonly found in some other artificial sweeteners. This characteristic makes sucralose a popular choice for individuals seeking to reduce their sugar intake without sacrificing taste.

One of the primary advantages of sucralose is its stability under high temperatures. It does not break down or lose its sweetness when exposed to heat, making it suitable for use in a wide range of food and beverage applications, including baking and cooking. This stability allows sucralose to retain its sweetness during the manufacturing process and subsequent storage.

Sucralose powder can be found in a wide variety of products, including beverages, dairy products, baked goods, confectioneries, and tabletop sweeteners. It is often used in combination with other sweeteners to achieve the desired taste profile and to reduce the overall quantity required.

In summary, sucralose powder is an artificial sweetener that offers intense sweetness without the calories associated with sugar. It provides a sugar-like taste without a bitter aftertaste and is stable under high temperatures. It is commonly used as a sugar substitute in a wide range of food and beverage products.

Additional Information:

• Packaging Details: 20kg Bag