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Metal tin is mainly used in the manufacture of alloys. Tin and sulfur compounds - tin sulfide, which is similar in color to gold, is commonly used as a gold pigment. Tin's modern application is as a solder for the electronics industry. Used in various purities and alloys (often with lead or indium), tin solders have a low melting point, which makes them suitable for bonding materials. Standard ASTM B29-03, BS EN 12659:1999, GB/T 469 -2005 , Content Pb â?¥ 99.99 % Density 11.34 g / cm 2 Color Bluish Weight 35 kgs / lump, 55 kgs / lump Dimension 21" x 4" x 2.5" Package Standard Sea-worthy package, fixed by belt per ton Shape Rectangular Lump Application lead-acid storage batteries Ammunition, cable sheathing, and building construction materials counterweights, battery clamps cast products such as: bearings, ballast, gaskets, type metal, terne plate, and foil Container Size 20Gp - 2.352(width) *2.385 ( Height ) * 5.90 ( Inside length ) Meter 40Gp - 2.352(width) *2.385 ( Height ) * 11.8 ( Inside length ) Meter 40HQ - 2.352(width) *2.69 ( Width ) * 5.90 ( Inside length ) Meter

1,Hight prurity (99.99% min) Metal Antimony (Sb) 2,4N>99.99%, 5N>99.999%, 6N>99.9999%, 7N>99.99999% 3,Lumps/Ingot/Granule/Bar 4,Color: Gray 5,Atomic weight: 121.760 6,Electronegativity: 2.05 7,CAS No.: 7440-36-0 8,Density: 6.697 g/cm3 (25â??) 9,Melting Point: 630.63 â?? 10,Boiling Point: 1587 â?? 11,Mainly used for the preparation of â?¢ - V compound semiconductor InSb, Bi2Sb, GaSb, high purity alloys, electronic refrigeration element materials and germanium, silicon single crystal dopants.

Bacoban DL Alcohol-free disinfection and cleaning of medical fittings and equipment and other surfaces (in accordance with Directive 93/42/EEC: MDD). The product conforms to British Standards under ISO standards DIN EN ISO 13485:2010; DIN EN ISO 9001:2008; DIN EN ISO 10993-1; DIN EN ISO 14971:2007; and EN 14885. Bacoban is a disinfectant product produced in Germany by Ropimex R Opel GmbH. Its certifications are under the Disinfectants Commission in the Association for Applied Hygiene (VAH) in collaboration with the Scientific Societies and Professional Associations DGHM, DGKH, GHUP, BVÃ?GD and BDH tested according to the DGHM Standard Methods for Testing Chemical Disinfection Processes and deemed to be effective for prophylactic disinfection and hygienic handwash. Does not contain Aldehyde or Phenol. Microbiological effectiveness Bacoban DL is effective against: bacteria, fungi, viruses (hepatitis B and C, HIV, influenza including H5N1and H1N1, Rotaviruses and adenoviruses), and as listed on the page 'Infections that Bacoban kills'

Oxalic acid is a naturally occurring organic compound with the chemical formula H2C2O4. It can be found in various plant sources, such as rhubarb, spinach, and certain nuts

Sodium gluconate is a sodium salt of gluconic acid, a compound derived from glucose, and is often used in various industrial and pharmaceutical applications. It is a white, odorless powder that is highly soluble in water. Sodium gluconate is valued for its chelating properties, which means it can bind to and stabilize metal ions, making it a common ingredient in cleaning products, detergents, and industrial descaling agents. Additionally, it is used in the food industry as a food additive and sequestrant to control the texture and acidity of products. Furthermore, sodium gluconate is employed in medicine as a drug or supplement and has applications in construction as a water-reducing agent in concrete admixtures due to its ability to improve the workability and strength of concrete mixtures.

Acetic acid, commonly found in vinegar, is a colorless organic acid with a sharp, pungent odor and a sour taste. It is a crucial component in vinegar production, where it is formed through the fermentation of ethanol by acetic acid bacteria. Acetic acid is widely used in the food industry as a flavor enhancer and preservative, as well as in household cleaning products. It also has industrial applications in the manufacture of various chemicals and plastics. Its distinctive taste and versatile properties make acetic acid a fundamental ingredient in both culinary and industrial processes.

Alum, also known as aluminum sulfate, is a chemical compound with the formula Al2(SO4)3. It is widely recognized for its versatile applications in various industries. Alum is commonly used as a coagulant in water treatment processes to clarify turbid water by removing suspended particles. Additionally, it has a history of use in pickling to crisp fruits and vegetables and as an ingredient in baking powder for leavening. Alum also finds use in cosmetics, textiles, and as a mordant in dyeing processes. Its astringent properties have made it a traditional remedy for various skin conditions. Overall, alum's ability to form solid precipitates and its diverse range of applications make it a valuable chemical compound in both industrial and household settings.

Anionic polyacrylamide is a water-soluble synthetic polymer with negatively charged functional groups, widely used in industries and environmental applications. Its main role is as a flocculant and coagulant in water treatment processes, where it aids in the aggregation and settling of suspended particles, impurities, and solids, facilitating their removal and purification from water sources. Beyond water treatment, anionic polyacrylamide has applications in enhanced oil recovery in the petroleum industry, soil conditioning for agriculture, and enhancing particle retention and drainage in the paper and textile industries. Its versatility in improving solid-liquid separation and reducing environmental contamination makes it a critical component in various industrial and environmental processes.

Calcium hypochlorite is a chemical compound with the formula Ca(ClO)2, commonly used as a powerful disinfectant and sanitizer. It is often found in the form of white granules or tablets and is a key ingredient in various water treatment processes, including the purification of swimming pool water, drinking water, and wastewater. Calcium hypochlorite releases chlorine when dissolved in water, which effectively kills bacteria, viruses, and algae, making it an essential tool for maintaining water quality and safety. Additionally, it is employed in sanitation and cleaning applications, particularly in industries like healthcare, agriculture, and food processing, where its strong oxidizing properties help control and prevent the spread of infections and contaminants. Its role in ensuring clean and safe water supplies and hygienic environments makes calcium hypochlorite a critical chemical compound for public health and sanitation.

Chlorine is a highly reactive chemical element with the symbol Cl and atomic number 17. It exists as a diatomic gas with a distinct, pungent odor and is widely known for its role as a disinfectant and bleaching agent. Chlorine is extensively used in water treatment to kill bacteria and make drinking water safe, and it plays a crucial role in sanitizing swimming pools. Additionally, it is a key component in the production of a wide range of chemicals, including plastics, solvents, and pesticides. Chlorine's versatile properties and ability to disinfect and oxidize contaminants make it an invaluable resource in public health, industry, and various chemical processes.

Chlorine dioxide (ClO2) is a chemical compound known for its powerful oxidizing and disinfecting properties. It is commonly used in water treatment to effectively eliminate bacteria, viruses, and contaminants, without producing harmful byproducts often associated with chlorine disinfection. Chlorine dioxide finds extensive application in purifying drinking water, treating wastewater, and sanitizing surfaces in various industries, including healthcare, food processing, and pulp and paper manufacturing. Its versatility, efficiency, and ability to provide safe and effective disinfection without compromising water quality make chlorine dioxide a valuable tool in maintaining public health and ensuring the safety of diverse products and processes.

Cosmetic chemicals refer to a diverse group of chemical compounds used in the formulation of cosmetics and personal care products. These chemicals serve various functions, including enhancing product stability, texture, and shelf life, as well as providing desired properties such as moisturization, UV protection, and color. Common cosmetic chemicals include emollients (e.g., oils and fatty acids), surfactants (e.g., detergents and foaming agents), preservatives, fragrances, and pigments. They are carefully selected and incorporated into cosmetic formulations to create products that cleanse, moisturize, beautify, and protect the skin, hair, and nails, catering to the wide range of consumer needs and preferences in the beauty and personal care industry.

Ethylene is a colorless and flammable gas with the chemical formula C2H4, representing one of the simplest hydrocarbon compounds with a double bond between carbon atoms. It is a natural plant hormone responsible for regulating various growth and developmental processes in plants, including ripening and flowering. Ethylene has significant industrial importance, as it is widely used in the production of plastics, particularly polyethylene, which is one of the most commonly used plastics worldwide. It also finds application in the chemical industry for the synthesis of various organic compounds. Ethylene's dual role in plant biology and industrial chemistry highlights its importance in both the natural world and human technology.

Formic acid, with the chemical formula HCOOH, is the simplest carboxylic acid and a colorless, pungent liquid with a sharp odor. It is naturally found in the venom of certain ants and serves as a key ingredient in stinging nettle plants. Formic acid is widely used in various industrial applications, including as a preservative and antibacterial agent in livestock feed, a coagulant in rubber production, and a powerful descaling agent for cleaning metal surfaces. It also plays a role in textile and leather processing, and as a basic building block in the synthesis of various organic chemicals. Its versatility and reactivity make formic acid a valuable compound with a range of practical uses in different industries.

Magnesium oxide, often referred to as magnesia, is a white, odorless, and alkaline solid with the chemical formula MgO. It is recognized for its diverse applications across industries. In healthcare, it is used as an antacid to relieve heartburn and indigestion, as well as a magnesium supplement. In the construction sector, magnesium oxide is utilized as a refractory material in kiln linings and as a fireproofing agent in building materials. It also plays a role in metallurgy as a refractory lining material for furnaces. Additionally, magnesium oxide finds application in the production of electrical insulators, as a catalyst in chemical processes, and as a stabilizer in some food products. Its ability to withstand high temperatures, neutralize acidity, and serve various functions highlights its importance in different industrial and consumer applications.

Magnesium sulfate, commonly known as Epsom salt, is a chemical compound with the formula MgSO4. It is a versatile mineral compound used in various applications. In agriculture, magnesium sulfate is employed as a fertilizer to correct magnesium deficiencies in soil, promoting plant growth and health. In the medical field, it is used as a laxative and in certain medical treatments for conditions like eclampsia and pre-eclampsia during pregnancy. Additionally, Epsom salt is popular in personal care and wellness practices, where it is added to bathwater for its potential muscle-relaxing and soothing properties. Its multi-purpose utility in agriculture, healthcare, and relaxation underscores its significance in different aspects of everyday life.

Optical brighteners, also known as fluorescent whitening agents (FWAs) or optical brightening agents (OBAs), are chemical compounds used in various industries, primarily in textiles, paper, and detergents. These substances absorb ultraviolet (UV) light and re-emit it as visible blue light, making colors and whites appear brighter and more vivid. Optical brighteners are often added to laundry detergents to give the illusion of cleaner and whiter clothing by enhancing their visual brightness. They are also used in the paper industry to improve the brightness and whiteness of paper products. Optical brighteners' ability to improve the appearance of materials under certain lighting conditions makes them valuable in enhancing the visual quality of a wide range of consumer and industrial products.

Oxalic acid is a colorless, crystalline organic compound with the chemical formula H2C2O4. It is naturally found in various plants, particularly in foods like spinach and rhubarb, and serves as a common component in some household cleaning products. Oxalic acid has versatile applications, most notably as a rust remover and stain cleaner for metal surfaces. In addition to its cleaning properties, it is used as a reducing agent in certain chemical reactions and as a mordant in textile dyeing. However, it should be handled with caution as it can be toxic when ingested in large quantities. Its ability to effectively remove stains and its role in various chemical processes make oxalic acid a valuable compound in both household and industrial settings.

Polyacrylamide is a synthetic polymer composed of acrylamide monomers and is widely used in various industrial, environmental, and scientific applications. It comes in various forms, including powder, liquid, and gel. In water treatment, polyacrylamide is employed as a flocculant and coagulant to separate and remove suspended particles and impurities, aiding in the purification of drinking water and wastewater treatment. Additionally, it plays a crucial role in the petroleum industry for enhanced oil recovery and in agriculture for soil conditioning and erosion control. In the laboratory, it serves as a gel for electrophoresis in DNA and protein analysis. Its versatility in facilitating solid-liquid separation and its ability to modify the rheological properties of fluids make polyacrylamide a valuable polymer in a range of practical applications.