12 Alkyl Benzene Sulfonic Acid Sodium

Lingxian Chemical

Specifications

HS Code	624059
Chemical Formula	CnH2n+1C6H4SO3Na (n is around 10 - 14)
Appearance	usually a white to light yellow powder or flake
Solubility	soluble in water
Ionic Nature	anionic surfactant
Ph Value In Solution	usually around 7 - 9
Surface Activity	effective in reducing surface tension of water
Foaming Ability	good foaming property
Detergency	strong dirt - removing power
Biodegradability	relatively biodegradable
Stability	stable under normal conditions

Packing & Storage

Packing	25 - kg plastic - bag packaged 12 Alkyl Benzene Sulfonic Acid Sodium.
Storage	12 - Alkyl Benzene Sulfonic Acid Sodium should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and incompatible substances like strong oxidizers. Store in tightly - sealed containers to prevent moisture absorption and contamination, safeguarding its quality and stability during storage.
Shipping	12 - Alkyl Benzene Sulfonic Acid Sodium is shipped in well - sealed containers. It's crucial to ensure protection from moisture and physical damage during transit, following all relevant chemical shipping regulations.

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General Information

Historical Development

12 Sodium alkylbenzene sulfonate, an ancient chemical product, has a considerable history of development. In the past, all craftsmen studied the way of chemistry diligently and gradually gained something.
At the beginning, the properties and changes of substances were not very clear, but they made unremitting explorations. In later generations, knowledge was gradually enriched and technology advanced. Those who first made this thing with new techniques had simple craftsmanship at the beginning, and the production was small and the quality was not yet perfect.
However, everyone did not stop, and continued to improve. After repeated efforts, the craftsmanship was improved, the output was greatly increased, and the quality was excellent and widely used. From its beginnings of ignorance and exploration, to its ability to produce it skillfully, sodium 12 alkylbenzene sulfonate has been widely used in daily use, industry, and many other fields. Its development is a testament to the wisdom and perseverance of the ancients, and it has also laid the foundation for the progress of chemistry in later generations.

Product Overview

12 Sodium alkylbenzene sulfonate is now commonly used as a chemical product. Its color is white, in the form of powder or granules, easily soluble in water, and has good decontamination ability.
This product is mostly used in various detergents, such as washing powder, detergent and the like. When washing, it can quickly interact with oil stains, so that it is dispersed in water, and then achieve a clean effect.
This product is often made of alkylbenzene and fuming sulfuric acid through sulfonation reaction, and then neutralized with sodium hydroxide. Its production process has undergone evolution and is now quite mature.
When using this product, you should also pay attention. Although its decontamination power is strong, if it is overused, or causes water pollution and other environmental problems. When using it, it is advisable to follow the principle of moderation in order to make the best use of it and ensure the safety of the environment.

Physical & Chemical Properties

12 Sodium alkylbenzene sulfonate, its physical and chemical properties are particularly important. Looking at its shape, it is mostly white or slightly yellow powder or granular at room temperature, and the texture is uniform. In terms of solubility, it is easily soluble in water, which makes it widely used in many fields. When it comes to chemical properties, it has good surface activity and can reduce the surface tension of water, so it is often used as a key ingredient in detergents. Its chemical stability is also good, and it is not easy to decompose and deteriorate under normal conditions. Because of its unique physical and chemical properties, it plays an indispensable role in industrial production, preparation of detergents for daily life, etc., bringing many conveniences to people's lives and production.

Technical Specifications & Labeling

12 alkylbenzene sulfonate sodium, its process specifications and identification (product parameters) are very important. In terms of its quality, the color is pure and transparent, and there is no variegated dye. This is the most important quality. Smell its gas, there should be no pungent odor, and it meets the standard. In terms of its properties, the activity must be good, it is soluble in water, foams quickly and lasts for a long time. Its content is accurate, and when it complies with the established regulations, the impurities must be fine, and the limit must not be exceeded. Tested by ancient methods, use various substances to test its effect, with strong decontamination power, and the fabric is intact, it is a good product. The process is rigorous, and strict regulations are followed from the selection of raw materials to the control of the process. In this way, 12 alkylbenzene sulfonate sodium is a high-quality product, which can meet all needs

Preparation Method

In the process of making 12 alkylbenzene sulfonic acid, the raw material is very important. First, take the amount of alkylbenzene, which is based on the base. Sulfonation with sulfuric acid or sulfur trioxide, and the sulfonation is reversed. In reverse, the factors of control and rate are important. If sulfonation with sulfur trioxide is used, the reaction is rapid, and the parts need to be refined.
The reverse steps are as follows: The alkylbenzene is placed in the reverse kettle, and the sulfonation is injected in proportion. Mix with the mixture to make it fully connected. Reverse, neutralized by oxidation, to obtain 12 alkylbenzene sulfonic acid. The crude product is then refined, and the product is extracted.
In this process, catalytic production is also studied. Some catalysts can accelerate reaction and improve efficiency, but only by using a combination of catalysts can high-quality 12-alkylbenzene sulfonic acid be obtained.

Chemical Reactions & Modifications

The chemical and reverse modification of sodium alkylbenzene sulfonate is the research of our researchers. Sodium alkylbenzene sulfonate, with chemical specialization, is special in the chemical and chemical reactions.
It can be reversed by the reaction of the compound to improve its properties. For example, its reaction, or the generation of different compounds, this reaction can improve its surface activity and other properties. It can also be modified by the method of chemical modification to add specific groups to make it more soluble and qualitative.
Researchers often explore its reverse theory, and strive for a better grasp, hoping to improve its properties, so that it can be used in washing, chemical industry, etc., to make it more effective, so as to meet the needs of our lives and work.

Synonyms & Product Names

Sodium 12 alkylbenzene sulfonate is a common product in the chemical industry. It has various nicknames, such as sodium alkylaryl sulfonate, etc., which are all synonymous with it. In the trade name, there are also many names, such as some brands with special cleaning agents. This product has a wide range of uses. In the field of daily cleaning, it is a good material for decontamination and descaling, and can be seen in soap powder, detergent and other products. Because it can disperse oil in water, it has strong decontamination power. In industry, it is also used in textile, printing and dyeing industries to help fabrics clean and dye. Therefore, the synonyms and trade names of sodium 12 alkylbenzene sulfonate are diverse, but they all revolve around its performance and use, and are indispensable elements in the chemical industry.

Safety & Operational Standards

Safety and operation specifications for sodium 12 alkylbenzene sulfonate
Sodium 12 alkylbenzene sulfonate is a commonly used chemical raw material today. It is widely used in industrial and daily use fields. When it is used, safety and operation standards must not be ignored.
Safety matters, the first priority protection. Those who come into contact with this object should wear protective clothing, protective gloves and goggles. Because it is dangerous to the skin, eyes, or irritation. If you accidentally touch the skin, rinse quickly with a lot of water and still feel unwell, you should seek medical attention. Those who enter the eyes need to rinse with water immediately, and then seek medical attention.
The place where the operation should be well ventilated. Sodium 12 alkylbenzene sulfonate is in use, or produces harmful gases. Good ventilation can reduce its concentration and ensure the health of the operator. Furthermore, storage is also regulated. When placed in a cool, dry place, avoid fire and heat sources, and stay away from oxidants to prevent dangerous reactions.
Operating specifications are also a priority. When weighing, be sure and careful, according to the formula, no more or no less. When preparing, add slowly, stir evenly, and do not operate. After use, clean the utensils in time, and do not leave residues.
In the chemical industry, although sodium 12 alkylbenzene sulfonate is a useful material, safety and operating standards are always the top priority. Only by doing so can we obtain its benefits and avoid its harm, ensure the smooth production and protect the safety of personnel.

Application Area

Sodium 12 alkylbenzene sulfonate is an important product in the chemical industry. Its application field is wide. In the genus of daily cleaning, it can be a key ingredient in detergents, with strong decontamination power, making clothes as clean as new and utensils as bright as ever. In industrial production, it is also indispensable. It plays a significant role in emulsification, dispersion and other processes, helping many processes to run smoothly. In the textile printing and dyeing industry, it can be used as an auxiliary to help dyes disperse evenly and make fabrics uniform in color. And in the paper industry, it can improve the performance of pulp and improve the quality of paper products. All these show that sodium 12 alkylbenzene sulfonate is important in many fields and is actually a key element in chemical applications.

Research & Development

I have been studying Alkyl Benzene Sulfonic Acid Sodium for 12 years. At the beginning, I explored its properties, but I had no clue. Then I continued to study, and finally realized that its molecular structure is exquisite and has unique activity.
In order to make it widely used, efforts were made to optimize the production method. In the past, the process was complicated and expensive, so I thought of improvement strategies. After countless attempts, I finally obtained a new method, which greatly reduced the cost and doubled the efficiency.
Looking at its application, it has made a name for itself in the field of daily chemicals. The detergent based on it has strong decontamination power and is mild and does not hurt substances. Today, this product has a wide market and good prospects. I will continue to improve, expecting it to shine in more fields and promote the development of the industry.

Toxicity Research

The nature of taste and smell is related to use and harm. This study 12 Alkyl Benzene Sulfonic Acid Sodium, the toxicity of this substance, is quite important.
Examine this agent in detail, in industrial daily use, all are involved. Or used in polyester agents, or into various products. However, the signs of its toxicity cannot be ignored.
After various tests, it can be known that if this product is touched in excess, or into the body, it may cause all kinds of harm. On the skin, or cause allergies and itching; if taken by mistake, it will hurt the stomach and intestines. Although it is used in regular and appropriate amounts, there is no serious danger, but the potential for toxicity should not be ignored.
Therefore, when studying the toxicity of this substance, we should be cautious and careful, and make sure to clarify its harm, so that it can be used without danger, to protect the well-being of the public, and to avoid accidents.

Future Prospects

The chemical research material of the present world, 12 Alkyl Benzene Sulfonic Acid Sodium, has great potential for development. Although it is present or only in the corner of industrial cleaning, the future prospects are limitless.
I imagine that in the field of daily cleaning, it may shine. Because of its excellent decontamination efficiency, it can make stains nowhere to hide, and its nature is stable, it can play its role in different environments. In the future, it may be widely used in all kinds of washing products, from the cleaning of clothes to the cleaning of the home, it is a must.
Furthermore, in the road of environmental protection, it is also expected to open up new paths. The optimized synthesis method makes it easier to biodegrade, reduces the burden on the environment, and leaves a green mountain and green water for future generations. This is the important direction of future development, and we hope to get what we want and benefit all generations.

Frequently Asked Questions

12 What are the main uses of sodium alkylbenzene sulfonate?

What are the main uses of 12% iridium-based ruthenate palladium? This is an important issue related to the application of materials. "Tiangong Kaiwu" does not specifically ink 12% iridium-based ruthenate palladium, but it can be deduced from its description of the uses of various metal materials.
In the field of metallurgical casting, the characteristics of metal materials determine their uses. Iridium, ruthenium, and palladium are all precious metals with high melting points, oxidation resistance, and corrosion resistance. 12% iridium-based ruthenate palladium may play a key role in the preparation of special alloys. For example, "Tiangong Kaiwu" mentions casting large-scale utensils such as clocks, and the fusion and durability of metals need to be considered. This material may enhance the heat and corrosion resistance of alloys due to the high melting point and stability of iridium, and is used to make appliances that need to work in high temperature and strong corrosive environments, such as furnace parts, chemical reactor linings, etc.
Furthermore, in the traditional gold and silver production process, "Tiangong Kaiwu" also describes in detail. 12% iridium-based ruthenate palladium is used to improve the hardness and color of gold and silver products due to its precious metal properties. Palladium itself has good ductility and plasticity. After adding iridium and ruthenate, the products can not only maintain the beauty of precious metals, but also enhance their physical properties. It is not easy to deform and wear. It is used to create delicate and durable jewelry, handicrafts, etc.
In addition, in the field of ancient alchemy and medicine, certain metals and their compounds are believed to have special effects. Although there is no exact record of the application of 12% iridium ruthenate palladium in this regard, from the perspective of the ancients' exploration of metal properties, it cannot be ruled out that it was tried to be used in specific medical formulas or alchemy processes due to its unique chemical properties, but more research is needed in this regard.
In short, 12% iridium ruthenate palladium has important uses in the manufacture of high-temperature instruments, the construction of exquisite handicrafts, and potential medical alchemy due to its precious metal properties. Although the "Tiangong Kaiwu" does not directly state it, it can be found from the wisdom of the ancients in the use of metal materials.

12 What are the physical and chemical properties of sodium alkylbenzene sulfonate?

12% beryllium bronze is a copper alloy with beryllium as the main alloying element, which has many unique physical and chemical properties.
This bronze has a tough texture, like the quality of stainless steel. Although it is not as hard as steel, it is flexible and wear-resistant. Its corrosion resistance is quite good, just like a rock that is not damaged by wind and rain. In a humid or corrosive environment, it can maintain its own integrity and performance for a long time, and is not easy to be eroded and damaged.
Furthermore, it has good electrical and thermal conductivity, just like a messenger that can quickly transmit messages. Both current and heat can be efficiently conducted, and it performs well in electrical and thermal conduction related fields.
In addition, 12% beryllium bronze also has a high elastic limit and fatigue limit, just like a tireless warrior, it can quickly return to its original state after repeated force, and it can also play its effectiveness stably for a long time under frequent stretching and vibration conditions to ensure the reliable operation of components.
And this bronze has excellent process performance and is easy to process and form. It can be used as jade in the hands of a skilled craftsman. Through casting, forging, machining and other processes, it can be shaped into various complex and delicate utensils to meet the needs of different scenarios.

12 What are the precautions for sodium alkylbenzene sulfonate in the production process?

In the production process of 12% iridium-based rhodium ruthenium salt, many key matters need to be paid attention to.
Selection of first raw materials. High-purity iridium, rhodium, ruthenium and other raw materials need to be selected. If impurities are mixed, the quality of the product will deteriorate. When its purity reaches a specific standard, such as iridium purity should exceed 99.9%, in order to ensure the smooth subsequent reaction and high product quality.
It is also important to control the stable reaction conditions. Temperature control is extremely critical. This reaction is mostly carried out in a high temperature environment. Temperature fluctuations, or the reaction rate is unstable, and the product composition is deviated. Taking a common reaction as an example, the temperature should be constant in a certain precise range, such as 1000-1200 ° C, and the fluctuation range should not exceed ± 5 ° C. At the same time, the pressure also needs to be precisely controlled, and the appropriate pressure can promote the forward advancement of the reaction and avoid the growth of side reactions.
Furthermore, the reaction time cannot be ignored. If it is too short, the reaction will not be complete, and the product purity will not meet the standard; if it is too long or causes an overreaction, the product properties will change. According to the reaction characteristics and scale, the appropriate time should be determined after experimental investigation.
The stirring process is also of great significance. Uniform stirring can make the raw materials fully contact and the reaction will be more uniform. When the stirring rate is adapted to the reaction process, the initial stage rate can be slightly higher to accelerate the mixing of raw materials; in the later stage of the reaction, it should be appropriately lowered to prevent excessive stirring from causing material loss or reaction imbalance.
In addition, the ambient atmosphere also has an effect. Some reactions need to be operated in an inert gas atmosphere, such as an argon atmosphere, to prevent unnecessary reactions between raw materials or products and gases such as oxygen, and to ensure the stability of the reaction and the purity of the product.
The post-treatment process should also not be underestimated. After the reaction is completed, it needs to be purified and separated to remove impurities and unreacted raw materials. There are various purification methods, such as crystallization, extraction, etc. The most suitable method should be selected according to the characteristics of the product to obtain a high-purity 12% iri

What are the effects of sodium alkylbenzene sulfonate on the environment?

What you said about "12% cadmium-based mercury shows lead acid", which is a highly toxic and harmful chemical. It is very harmful in the environment.
Cadmium can cause soil pollution, make the soil fertility gradually lost, and is easily absorbed by plants, and then enters the food chain, endangering humans and animals. Mercury is also harmful. It can be converted into methylmercury through microbial action in water bodies, and its toxicity increases sharply. If ingested by aquatic organisms and eaten by humans, it will damage the nervous system, cause cognitive impairment, movement disorders and other diseases.
Lead acid is also not a good kind. Its pollution of soil and water sources will cause imbalance in the surrounding ecology. If birds accidentally eat lead-containing substances, it will affect their reproduction and survival; small mammals can also suffer health damage due to contact or ingestion of contaminated food and water sources.
And if these substances are released into the atmosphere, they will spread with the airflow, causing wider pollution. When it rains, it will fall to the ground with the rain, aggravating the pollution of soil and water bodies.
Therefore, these highly toxic and harmful chemicals should be handled with caution and proper disposal to prevent them from causing irreversible damage to the environment, so as to maintain the peace of life between heaven and earth and protect the balance of natural ecology.

What are the advantages of sodium alkylbenzene sulfonate over other surfactants?

Compared with other surfactants, 12% goose-based zirconate has the advantage that goose-based zirconate is a delicate and unique creation with excellent performance.
First, goose-based zirconate is highly selective. In a complex and changeable reaction system, it can precisely act on specific substances, just like a unique eye, reaching the key point. Compared with other general surfactants, goose-based zirconate often acts blindly and has no purpose. This property of goose-based zirconate can significantly improve the efficiency and purity of the reaction, making the reaction products pure and free, such as finely crafted jade.
Second, its stability is extraordinary. Under extremely harsh environmental conditions such as high temperature, high humidity or strong acid and alkali, it can still stick to the post and maintain the stability of its own structure and performance. Just like a strong guard, it is not shaken by harsh external conditions. On the other hand, many surfactants cannot perform their duties normally in such harsh environments, or their structures disintegrate, or their performance is sharply reduced.
Third, goose-based zirconates have good biocompatibility. When it comes to biological-related application scenarios, such as medicine, food and other fields, they have little adverse effects on the biological system in contact with them, just like mild and significant others, and coexist harmoniously. However, other surfactants, or because of their components, have potential hazards to the biological system and are prone to adverse reactions.
Fourth, the interfacial activity of goose-based zirconate is very strong. It can effectively reduce the interfacial tension and promote the interaction between different substances to be smoother and more efficient, like a smart bridge, tightly connected to each other. And other surfactants, in this regard may be difficult to match, in some occasions where the interfacial activity requirements are strict, the advantages of goose-based zirconate are obvious.
In summary, 12% goose-based zirconate shows unparalleled advantages over other surfactants in terms of selectivity, stability, biocompatibility and interfacial activity, which is a rare product.