Industry Guanidine Hydrochloride

Lingxian Chemical

Specifications

HS Code	882704
Chemical Formula	HCl·HNC(NH2)2
Molar Mass	95.53 g/mol
Appearance	white crystalline solid
Odor	odorless
Solubility In Water	highly soluble
Melting Point	181 - 183 °C
Boiling Point	decomposes
Ph Of Aqueous Solution	acidic
Density	1.34 g/cm³
Stability	stable under normal conditions
Hygroscopicity	hygroscopic

Packing & Storage

Packing	500 - gram bottles of Industry Guanidine Hydrochloride, well - sealed for protection.
Storage	Industry Guanidine Hydrochloride should be stored in a cool, dry, well - ventilated area. Keep it away from sources of heat, ignition, and incompatible substances like strong oxidizing agents. Store in tightly - sealed containers to prevent moisture absorption. This helps maintain its chemical stability and ensures safe storage.
Shipping	Industry Guanidine Hydrochloride is shipped in well - sealed containers, compliant with chemical transportation regulations. Special care is taken to prevent leakage, ensuring safe transit for this important chemical in the industry.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

General Information

Historical Development

The development of industrial guanidine hydrochloride was unknown in ancient times, but with the evolution of chemical technology, its products gradually appeared in the world. At the beginning, chemical exploration did not reach this field, and later scholars' research, in material synthesis and property cognition, has made progress. In the past, the experiments were difficult, and we explored step by step, from the exploration of raw materials to the detailed study of reaction conditions, and we worked tirelessly. After years, the process has gradually matured, from laboratory trials to large-scale production. Its application has also expanded with cognition, and it has developed its capabilities in the fields of medicine and materials. From being little known to being widely used, the development of industrial guanidine hydrochloride is a testament to the journey of chemical exploration. Past efforts have created current achievements and contributed to various industries. In the future, it will also continue to expand in the tide of science and technology.

Product Overview

Industrial guanidine hydrochloride said: "Industrial guanidine hydrochloride is a treasure of chemistry. Its shape or white crystal, stable and soluble in water, alcohol and other solvents." "In the field of industry, it has a wide range of uses. It can be used as a raw material for pharmaceutical synthesis, assisting in the preparation of a variety of drugs, which is related to health. It is also an important reagent in the process of organic synthesis, which can promote the smooth occurrence of many reactions and promote the progress of chemical synthesis. And because of its characteristics, it is also indispensable in some biochemical experiments, and can assist in the study of the structure and function of biological macromolecules." "Its production process has been continuously studied and improved, and it has become more and more sophisticated. With rigorous laws and scientific regulations, it ensures high-quality output. Industrial guanidine hydrochloride shines brightly in the forest of chemical industry, making outstanding contributions to the development of various industries. "

Physical & Chemical Properties

The physical and chemical properties of guanidine hydrochloride can be studied. Looking at its shape, it is often white crystalline, with uniform texture and purity. Its taste or specificity is also one of its characteristics. In terms of its solubility, it is very soluble in water, just like the water of fish, and it is fused seamlessly. This property makes it easily dispersed in many solution systems and effective. And its melting point and boiling point have specific values. The melting point is stable at a certain temperature, just like a fixed Poseidon needle, which is a sign of its physical properties. The same is true of the boiling point. Under a specific pressure, it reaches a certain temperature and boils. Furthermore, its chemical properties are also rich in research. Under specific conditions, it can react with a variety of substances, just like a brave warrior who fights against the enemy. It exhibits unique chemical activity and plays a key role in the process of many chemical reactions.

Technical Specifications & Labeling

Industry Guanidine Hydrochloride's technical specifications and identification (product parameters) are the key to this product. Its quality needs to be pure, impurities must be small, and the content should be accurate. Looking at its color, it should be clean and flawless, if it is crystalline, there should be no peculiar smell and odor. On the label, the composition, content, and origin must be clear and clear, so that people can see at a glance. And its packaging is tight, to prevent moisture and leakage, and to protect its quality from damage. In the technical specifications, the production method must follow strict procedures, and each step has a fixed number to ensure the stable and excellent quality of the product. In this way, the technical specifications and identification (product parameters) of Industry Guanidine Hydrochloride are accurate.

Preparation Method

This is the method for the preparation of Industry Guanidine Hydrochloride. The raw material is taken from a certain characteristic, according to a specific ratio. The preparation process involves first putting the raw material into a special vessel, controlling it at a suitable temperature and maintaining a stable pressure. In the reaction step, the raw material is initially blended, slowly stirred, and the phase is promoted. When it responds, observe its signs and adjust it at the right time. As for the catalytic mechanism, choose a good catalyst to respond quickly and reduce the time. When this agent is put in, the amount needs to be precise, less should be slow, and more or different. In this way, a purer Industry Guanidine Hydrochloride can be obtained for various uses.

Chemical Reactions & Modifications

Industrial guanidine hydrochloride is also a chemical substance. Its reaction and modification are related to many things. In the field of chemistry, explore its properties and strive to improve. The reaction of guanidine hydrochloride, or combination with other substances, or self-decomposition, can be followed. It encounters with alkali, or neutralizes; when heated, it also changes. As for modification, it is necessary to increase its stability, or change its solubility, so that it is suitable for different uses. After various tests, by chemical methods, adjust its structure and change its characteristics. In this way, the reaction and modification of guanidine hydrochloride in the industry have been continuously studied, and we have achieved something, which has contributed to the progress of the chemical industry and promoted its vigorous and prosperous development.

Synonyms & Product Names

Industrial guanidine hydrochloride, its synonyms and trade names, are related to the scope of chemical research in our generation. Guanidine hydrochloride is also known as aminoformamidine hydrochloride, which is one of its synonyms. In terms of trade names, in the industry, some merchants are known by unique names. Although they all refer to this thing, they are called differently. When we explore industrial guanidine hydrochloride, we need to clarify the relationship between its synonyms and trade names. This helps to accurately grasp market information and is also conducive to scientific research exchanges. Its synonyms reflect the aliases of chemical nature, and the trade names reflect the characteristics of commercial promotion. The mutual reference between the two makes our understanding of industrial guanidine hydrochloride more comprehensive, which is of great significance in scientific research applications and commercial trade.

Safety & Operational Standards

Industrial guanidine hydrochloride is of paramount importance in terms of its safety and operating standards. Industrial guanidine hydrochloride, with its characteristics, must be operated in accordance with strict regulations. The operator should take comprehensive protection in advance, wearing special protective clothing, wearing tough protective gloves, and wearing a clear protective eye mask to prevent it from splashing on the skin and eyes, causing damage. In the storage place, be sure to choose a dry, cool and well-ventilated place. Keep away from fire and heat sources, and avoid mixing with strong oxidants, strong alkalis, etc., to prevent unexpected chemical reactions. Storage devices should be made of corrosion-resistant materials and tightly sealed to prevent leakage. If there is a leak, don't panic. The first thing to do is to quickly evacuate the surrounding crowd and set up warning signs to prevent unrelated people from approaching. The operator should quickly put on professional protective equipment, according to the state of the leak, or absorb it with adsorption material, or neutralize it with an appropriate amount of lye, and properly clean it up without leaving any residue. When using, measure accurately, add slowly and stir according to the established process steps, do not be impatient. In the operation room, the ventilation device must be kept running at all times to disperse the gas that may escape in time. All these are the regulations for the safety and operation of industrial guanidine hydrochloride. If followed, the production can be smooth, personnel are safe, and the environment is safe.

Application Area

Industrial guanidine hydrochloride has a wide range of uses. In the field of medicine, it can assist in protein structure analysis and provide key assistance for the study of many difficult diseases. For example, to explore the mechanism of rare diseases, it can denature proteins in order to analyze their characteristics in detail, and then find treatment methods. Used in biochemical experiments, it is often used to lyse cells, release intracellular substances, and help researchers gain insight into the internal mysteries of cells. It can also be used for nucleic acid extraction, stabilize nucleic acid structures, and ensure the smooth progress of experiments. In the field of materials science, it can adjust the surface properties of materials. After its treatment, the adsorption and hydrophilicity of materials may be optimized, and it can be used in the preparation of various functional materials to help the research and development of new materials. It is of great value in many fields of industry.

Research & Development

Yu Taste is dedicated to the research and development of Industry Guanidine Hydrochloride products. This material has unique properties and has great potential in many fields. At the beginning, it is difficult to explore its preparation methods. The selection of raw materials requires precise consideration. If the ratio is slightly poor, the effect will not be good. The reaction conditions also need to be finely regulated, and the temperature and duration all affect its quality. After months of research, we have gradually gained something. The preparation process is becoming more and more refined, and the purity of the product is improved. Re-explore its application in the pharmaceutical, chemical and other industries. Communicate with the industry and discuss development strategies. We hope to continue to work hard to make this product a higher level, play a greater role in the industry, and promote progress in related fields.

Toxicity Research

The toxicity study of industrial guanidine hydrochloride is related to people's livelihood and industrial safety, which cannot be ignored. Industrial guanidine hydrochloride is quite commonly used in various chemical production. However, the investigation of its toxicity is really important. Looking at the experiments, animals touch it, or there may be physiological changes. The skin connects with it, which can cause discomfort or even injury. If taken into the body by mistake, the viscera will suffer from it. And it also has an impact in the environment. Biochemical reactions, or toxic things, cause ecological problems. Therefore, it is the important task of our researchers to study its toxicity, set safety standards, standardize its use, prevent it from developing, ensure the well-being of all living beings, and protect the balance of ecology.

Future Prospects

Today's Industry Guanidine Hydrochloride has a wide range of industrial uses and far-reaching impact. Although it has achieved certain achievements now, there is still a broad scope for expansion in the future. Future prospects, first, in the level of technological innovation, we should strive for excellence and strive to improve the purity and quality of this product to meet the strict needs of high-end industries. Second, in the application field, we can explore more unknown places, such as emerging technology industries, hoping to explore new uses and open up new markets. Third, when it comes to environmental protection, we should strive to develop greener and sustainable production processes to reduce the burden on the environment. In this way, Industry Guanidine Hydrochloride will surely shine in the future, adding bricks and mortar to the progress of industry and opening a new chapter.

Frequently Asked Questions

What are the main application fields of industrial guanidine hydrochloride

The main application fields of industrial citric acid cover food, beverage, medicine, chemical industry and other ends. In the food field, it is widely used. Often used as a sour taste conditioner, added to various beverages such as soft drinks and fruit juices, it can give it a refreshing sour taste, increase the taste, and have a certain anti-corrosion effect, which can prolong the shelf life of food. For example, many fruit juice beverages sold in the market, because of the addition of citric acid, sweet and sour taste, quite popular. In the production of jam, jelly, etc., citric acid can adjust the pH value, help pectin solidify, and the finished product has a better texture. In the beverage industry, citric acid is also important. In addition to the sour taste, it can cooperate with other ingredients in the beverage to enhance the aroma and make the overall flavor richer. Whether it is the refreshing of carbonated beverages, or the occasional addition of tea beverages to bring different freshness, citric acid is credited. In medicine, citric acid has many uses. In pharmaceutical processes, it can be used as a buffer to stabilize the pH value of drugs and maintain drug activity and stability. In some oral liquid preparations, citric acid improves drug solubility by its acidity and facilitates human absorption. In some external ointments and lotions, citric acid can adjust the pH value and increase the efficacy of drugs. In the chemical industry, citric acid can be used as a metal cleaning agent. Due to its chelating effect on metal ions, it can remove rust and dirt on metal surfaces, and is less corrosive to metals than strong acids, such as for cleaning copper pipes, stainless steel equipment, etc. In the electroplating industry, citric acid can improve the performance of the plating solution, making the coating more uniform and dense. In addition, in the production of detergents, citric acid can be used as an auxiliary agent to enhance the decontamination ability, and at the same time, it is environmentally friendly and biodegradable. From this point of view, industrial citric acid has important uses in many fields and has made great contributions to the development of various industries.

What are the Quality Standards for Industrial Acid?

For those who work with boric acid, the quality of their products is the same as that of boric acid for work, so as to ensure that they can be used for various industrial purposes. The quality of their products is listed as follows: First and foremost, the degree of boric acid is low. The degree of boric acid in work needs to be a certain proportion. Generally, high-degree boric acid can reduce the adverse effects caused by work and production. For example, in glass manufacturing, high-degree boric acid can improve the quality of the glass, and the light performance is better. If the degree of boric acid is insufficient, the finished glass or defects will affect the service life of the product. Furthermore, the content of boric acid should be controlled. If it is heavy gold, its content is small. If the heavy metal is left in the workmanship, or the performance of the product is deteriorated, it may also cause catalytic reaction disorder in a specific workflow. Another example is the coloured product, which also affects the appearance of the product. In some labor applications with strict external requirements, such as the manufacture of high-quality ceramics, a small amount of coloured product may reduce the overall aesthetics of the product. Particle size distribution is also one of the important factors. Different industrial applications have different requirements for boric acid particle size. In the case of the material, the appropriate particle size can make the boric acid disperse evenly in the material base, improving the anti-corrosion and weather resistance properties of the material. If the particle size is large or small, it may affect its dispersion and affect the material. Moisture content should not be ignored. The high moisture content may change the physical properties of boric acid, affecting its fluidity. In some chemical synthesis processes, the moisture may be reversed, causing the reaction to go out of control, which affects the yield of the product. Therefore, the moisture content of the technical boric acid is also limited to ensure its qualitative availability in various industrial settings. In addition, this general product can be used with each other to ensure the reliable use of technical boric acid in different industrial fields.

What are the precautions for industrial guanidine hydrochloride during storage and transportation?

It is very important to pay attention to the storage of boric acid at work. The first thing to pay attention to is the environment of the room. The room should be dry and well-ventilated, so as to avoid the danger of boric acid being damp. If it is damp, it will affect its performance or use. Because boric acid has a certain water absorption, the damp environment is easy to cause its water content to increase, or it may cause a phenomenon of damp, so it is essential to keep the room dry and dry. In addition, the room temperature also needs to be controlled. Do not make it in a high environment, high temperature or cause boric acid to react, causing its products to be damaged. And oxidize and acid are stored in equal parts. These substances or boric acid react, endangering safety. The room should also be in an orderly manner, so as not to mix with the materials, so as not to be stained with boric acid. If it is damaged, the package must be firm. The package of boric acid can resist the shock and collision on the way, and prevent the package from breaking. Once the package is broken, the boric acid will not be exposed, and it may also endanger the safety of the people. The package also needs to be cleaned, and other things that may be damaged by boric acid should not be shipped. On the way, people should pay attention to the package, avoid severe bumps, and ensure that the boric acid is properly delivered to the destination. In this way, the industrial boric acid is stored in the package, and it is necessary to carefully handle the environment of the room, the stability of the package, or the problem. It is necessary to ensure the safety of its products.

Is there a compatibility issue between industrial guanidine hydrochloride and other chemical substances?

The compatibility of industrial boric acid with other chemical substances is a matter of great importance to the industry. Industrial boric acid has unique chemical properties and is useful in many fields. However, if you want to explore its compatibility with other substances, you need to study their respective properties in detail. Chemical substances have their own properties, or are acidic, or alkaline, or have the ability to oxidize, or have the ability to reduce. Industrial boric acid, its properties are peaceful, but when it encounters strong acids and bases, it may change violently. If compared with metal salts, some metal salts can complex with boric acid to form new compounds. This process may be stable or variable, depending on the ratio of the two and the temperature and humidity of the environment. And if it is juxtaposed with some organic compounds, depending on the characteristics of their functional groups, it may be safe, or interact with each other, leading to changes in structure and properties. Looking at it in solvents, water is a common solvent, and boric acid has a certain solubility in water, and increases with temperature. However, if the water contains other solutes, such as electrolytes, or affects the dissolution and dispersion of boric acid, and then involves its interaction with other solutes. As for the gas environment, if it encounters reactive gases, such as hydrogen halide, etc., boric acid may be disturbed by it, resulting in different chemical states. Therefore, to consider the compatibility of industrial boric acid with other chemical substances, it is necessary to comprehensively investigate its chemical properties and various factors of the environment in which it is located, so as to clarify its compatibility and provide evidence for industrial use and experimental research, so as to avoid unexpected changes and ensure the stability of the process.

What factors affect the market price fluctuation of industrial guanidine hydrochloride?

The industry is affected by various factors. First, the supply of raw materials is extremely important. The production of citric acid is often based on powdered raw materials such as corn and potatoes. If such raw materials are supplied or the price rises due to factors such as weather conditions, planting conditions, policies, etc., the cost of citric acid production will increase, which will cause the market to rise. If the weather is unfavorable, the crops are not harvested, the supply of raw materials is low, and the price is low, and the quality of citric acid is also high. Second, the demand of the market is deep. Industrial citric acid is used in many fields such as food, cooking materials, cooking, washing, etc. If the food industry is flourishing, and the demand for sour taste is greatly increased, and citric acid is used as a commonly used one, its demand will be high, and the market is also expected to rise; on the contrary, if the situation is sluggish, the demand will wither, and the price will be easy to decline. For example, in a certain period, the demand for citric acid will decline, and the market will also decline. Third, the industry should not be ignored. If there are many enterprises in the production of citric acid, the market will be fierce, and the market will be affected. And the addition of new enterprises or the growth of new enterprises will change the market supply pattern and affect the price. If a new investment is made, the supply will be greatly increased, and the market price will be affected by the downward force. Fourth, policy law and international factors also play a role. The impact of insurance policies may cause enterprises to increase investment in insurance, increase costs, and affect prices. And in the case of easy access, such as high-quality integration, high-quality wall protection, etc., if there is a problem with the export or export of citric acid, it will be changed to meet the demand of foreign markets, and lead to high-quality products. If a certain country imposes a large amount of citric acid, the quality of citric acid may fluctuate due to the transformation of supply.