Experience the sale of detergent raw materials with PersianUtab. Detergents are products that remove dirt at any level. They help a lot in our daily lives. Detergents are mainly used for cleaning and there are different types of them. Today, the demand for detergents is high. PersianUtab is one of the leading suppliers in the field of detergent raw materials. We guarantee that the raw materials you buy from us are all of high quality. We offer a wide range of raw materials for the production of some of the most common chemical cleaning products, from washing powders and detergents to surface cleaners, disinfectants and special chemical cleaners.
The latest news from the detergent market predicts its future growth in the global market, which will lead to more sales of detergent raw materials. In recent years, COVID-19 coronary heart disease has had a significant impact on the global market for detergents as well as detergent raw materials, leading to the cessation of trade in products and factories. With the arrival of the new year, the trend of this disease has decreased and the market for these products will be booming. The sale of detergent raw materials in PersianUtab has returned to its routine in the post-Corona era, and we are trying to be able to deliver the best raw materials to you.
Non-ionic detergents
The most important non-ionic detergents are usually obtained by condensing compounds with a hydrophobic molecular group, usually a hydroxyl (OH) group with ethylene oxide or propylene oxide. The synthesis of these detergents requires specialized and explosion-proof equipment, supervision, precise and skilled control. Other non-ionic detergents are concentrated from fatty acids and organic amines. They are important as foam stabilizers in detergents and shampoos. Some non-ionic synthetic detergents may cause problems with unwanted foam in sewage systems. However, the issue is not as serious as anionic synthetic detergents.
Cationic detergents
Cationic detergents contain a long-chain cation that is responsible for its surfactant properties. They are marketed in powder, paste or aqueous mixtures, have important moisturizing, foaming and emulsifying properties, but are not good detergents. Most of them are used in areas where anionic detergents can not be used. Active cationic agents are used as emulsifying agents for asphalt on road surfaces. These agents are strongly adsorbed on minerals, especially silicates, and therefore form a strong bond between the asphalt and thus the aggregate. Cationic detergents also have excellent antimicrobial properties and are diluted in surgery.
Ampholytic detergents
Ampholytic detergents are used for special purposes in shampoos, cosmetics and in the plating industry. But they are not consumed in large quantities at present.
The first soaps were made in ancient times through a variety of methods, usually by boiling fat and ash. Archaeologists excavating ancient Babylonian sites have found evidence that such soaps were used as far back as 2800 BC. In the second century AD, the Romans regularly made soap, products they had probably produced even earlier.
In Europe, the use of soap declined in the Middle Ages. However, by the 15th century, its use and production resumed, and an olive oil-based soap produced in Castile, Spain, was sold in many parts of the known world. Castile soap, which is still available today, has maintained its reputation as a quality product Sale of detergent raw materials.
In the 18th century, Americans made their own soap at home, where most of them continued to make it until soap production moved away from private homes and became an industry in the 1930s. The first synthetic detergent or soap was produced in Germany during World War I. In 1946, the first detergent was made containing a surfactant (a surfactant or soap) and a builder (a chemical that enhances performance).
Detergent sales increased with the economic boom and the relatively inexpensive development of washing machines following World War II.
Although people often refer to laundry detergent as “soap”, it is actually a synthetic compound that works like some soaps with some major improvements.
Soap cleans because each soap molecule is made up of a hydrocarbon chain and a carboxylic group (fatty acids) that perform two important functions. The carboxylate end of the soap molecule is hydrophilic, meaning that it is adsorbed to water, while the hydrocarbon end of the molecule is both hydrophobic (excreted by water) and absorbs oil and fat from the soil. While the hydrophobic end of a soap molecule attaches itself to the soil, the hydrophilic end attaches to the water. Contamination attached to the carboxylate end of the molecule is chemically drawn from the cleaned clothes into the wash water. Proper stimulation and washing of clothes cleans the process Sale of detergent raw materials.
The main problem with using soap to clean laundry is when used in hard water, which is rich in natural minerals such as calcium, magnesium, iron and manganese. When these chemicals react with soap, they become insoluble and precipitate. Sediments stain the fabric and cause the fabric to stiffen.
Modern detergents contain several other substances in addition to surfactants. They increase the efficiency of the surfactant. They also separate minerals in hard water, which means they keep them in solution and prevent them from settling.
In addition, manufacturers can emit oil and fat into small, washable pellets. Some, such as sodium silicate, inhibit corrosion and reassure you that the detergent will not damage the washing machine. They help the chemical balance of the rinsing water and ensure that it rinses effectively.
Modern detergents contain several other substances, including anti-fouling agents, chemicals that help prevent dirt from settling on laundry. Fluorescent bleaches are also common. By converting invisible ultraviolet light into visible blue light, they help maintain brightness or whiteness. Oxygen bleaches such as sodium perborate improve the inhibitory ability of the mixture, especially in low-phosphate or non-phosphate products, as well as in removing some types of stains. Processing aids such as sodium sulfate are also used to prevent coking and to standardize product density.
Enzymes and fragrances are also found in commercial detergents. Enzymes (a type of protein) break down some stains to make them easier to remove, and are an essential ingredient in various pre-soaking products used to treat very dirty clothes before washing. Perfumes or scents mask dirty odors and any chemical odors of the detergent itself. Soda control agents also play a role in detergents, as large amounts of sludge cause mechanical problems in the washing machine.