Triaminoguanidine Hydrochloride

Lingxian Chemical

Specifications

HS Code	748931
Chemical Formula	C(NH2)3NHNH2·HCl
Molecular Weight	112.56 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Odor	Odorless
Ph Aqueous Solution	Acidic
Melting Point	Approximately 170 - 175 °C
Stability	Stable under normal conditions, but may decompose on heating

Packing & Storage

Packing	100 g of Triaminoguanidine Hydrochloride packaged in a resealable chemical - grade bag.
Storage	Triaminoguanidine Hydrochloride should be stored in a cool, dry, and well - ventilated area, away from heat sources and direct sunlight. Keep it in a tightly closed container to prevent moisture absorption and contact with incompatible substances. Store it separately from oxidizing agents and acids to avoid potential reactive hazards, ensuring safety during storage.
Shipping	Triaminoguanidine Hydrochloride, a chemical, requires secure shipping. It should be packaged in well - sealed, corrosion - resistant containers, following all safety regulations for chemical transport to prevent any risk during transit.

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General Information

Historical Development

Triaminoguanidine Hydrochloride is a chemical substance. Its origin can be traced back to the past, which is the result of chemists' research and exploration. At the beginning, its understanding was still shallow, and only a few characteristics were known. However, as time went by, various studies followed one after another.
Scholars worked hard in the laboratory and tried it with different methods. As a result, the understanding of Triaminoguanidine Hydrochloride has gradually deepened, such as its chemical properties and reaction mechanism. With the evolution of science and technology, analytical techniques have become more refined, and synthesis methods have also been continuously improved, making this substance emerge in many fields and have a wide range of uses. It has become an indispensable existence in chemical research and industrial applications. Its development process is really a witness to the progress of chemical exploration.

Product Overview

"Product Overview of Triaminoguanidine Hydrochloride"
Today there is a product named Triaminoguanidine Hydrochloride, that is, triaminoguanidine hydrochloride. It is a chemical product and is quite useful in many fields. This product has unique properties, is white crystalline and has certain stability.
In terms of preparation, it is carefully synthesized through specific chemical methods. The reaction conditions are harsh, and it is necessary to precisely control the temperature, pH and other factors in order to obtain the ideal product.
It is widely used in the field of medicine, or as a key intermediate for synthesis, to help the development of new drugs; in the chemical industry, it can be used as a raw material for specific reactions and participate in many chemical transformations. It is also an important reagent in scientific research and exploration, providing assistance for chemical research.

Physical & Chemical Properties

Triaminoguanidine Hydrochloride is a chemical substance. Its physical and chemical properties are particularly important. Looking at its shape, at room temperature, it may be in a crystalline state, with pure color and uniform quality, like jade chips, shiny and shiny. In terms of its properties, it dissolves in water and can be in an ionic state. Between ionization and particle interaction, it shows its chemical activity.
Its melting point has a specific value. It transforms when heated, which is a sign of physical phase transformation. As for chemical activity, in its molecular structure, atoms bond delicately, and amino groups can react with other substances, or nucleophilic or electrophilic. It has a wide range of uses in the field of organic synthesis. From the perspective of its physical and chemical properties, it has potential applications in various fields such as material preparation and drug research and development, and can be the cornerstone of scientific research excellence.

Technical Specifications & Labeling

Triaminoguanidine Hydrochloride is also a chemical substance. The quality of the product is very important. The quality of the product is good, and it needs to be improved according to the method of refinement. The amount of its content must be determined according to the quality of the equipment, and the quality of the product should be improved. Its appearance is the same, and it should be dyed.
There is also a standard for the quality of the product. It needs to be placed in a dry place, avoiding water and fire, and preventing the invasion of the product. In this way, the product of Triaminoguanidine Hydrochloride can be guaranteed to be fixed, and its effectiveness can be developed in various uses, so as to meet the needs of this chemical substance in the world, comply with the work of the product, and keep the product of the product, so as to become a good product.

Preparation Method

Triaminoguanidine Hydrochloride is a chemical substance. To make this substance, the raw materials and the production process are the key. The raw materials should be taken from high-quality materials to ensure the purity of the product. The production process is the first step of the reaction. In a suitable container, the raw materials should be placed in proportion, and the temperature and pressure should be controlled to fully respond to it.
The speed and efficiency of the reaction are related to temperature control. If it is overheated, the reaction will be dramatic, or cause accidents; if it is too cold, it will be slow, which is time-consuming and laborious. Furthermore, the stirring during the reaction is also necessary to make the raw materials mix evenly, which should be more complete. After
is the purification mechanism. The product is initially formed, or contains impurities. By recrystallization, extraction and other methods, impurities are During recrystallization, select the appropriate solvent, dissolve product, filter impurities, and then cool down to purify the product. Extraction depends on the solubility of the product and impurities in different solvents. After these steps, high-purity Triaminoguanidine Hydrochloride products can be obtained.

Chemical Reactions & Modifications

Triaminoguanidine Hydrochloride is also a chemical substance. In the field of chemistry, its reaction and modification are the most important research. Its reaction can also vary depending on conditions. Temperature, solvents, and catalysts can all change its diameter and fruit. To change its properties, increase its stability, solubility, or add new energy, it is often adjusted by chemical methods. If it changes its molecular structure, adding groups or changing chains can make it unique in different environments. The progress of this research is expected to expand its use, and it will have a better appearance in the fields of medicine and materials, adding new colors to the chemical world and helping human life progress.

Synonyms & Product Names

Triaminoguanidine Hydrochloride is also a chemical substance. Its name is the same, or it has the name triaminoguanidine acid. The use of this compound is very important, and it is involved in the chemical industry, chemical industry and other fields. As far as chemical industry is concerned, it can be used as a raw material for synthesizing other substances, and its special chemical production can lead to general chemical reactions, so as to form the required substances. In terms of chemical production, it may also have a certain effect and help health. Its trade name, industry or industry, but all refer to this thing. Triaminoguanidine Hydrochloride, with its characteristics, has a place in chemical research and development, providing an important foundation for more research and production.

Safety & Operational Standards

Triaminoguanidine Hydrochloride is also a chemical product, which is related to safety and operating standards, and should not be careless.
When storing, it should be placed in a cool, dry and well-ventilated place. Keep away from fire and heat sources and prevent direct sunlight. It must be stored separately from oxidants, acids, alkalis, etc., and should not be mixed to prevent dangerous chemical reactions.
When operating, the operator should be specially trained and strictly abide by the operating procedures. It is recommended that the operator wear a self-priming filter dust mask, chemical safety protective glasses, anti-poison infiltration overalls, and rubber gloves. Avoid dust generation and contact with oxidants, acids, and alkalis. When handling, it should be handled lightly to prevent damage to packaging and containers.
If it comes into contact with the skin, immediately remove the contaminated clothing and rinse with a large amount of flowing water for at least 15 minutes; if it comes into contact with the eyes, immediately lift the eyelids, rinse thoroughly with a large amount of flowing water or normal saline for at least 15 minutes, and seek medical attention in time.
In case of fire, in view of its chemical properties, it is advisable to choose suitable fire extinguishing agents, such as dry powder, carbon dioxide, etc., and must not be blindly extinguished with water.
In short, the safety and operation specifications of Triaminoguanidine Hydrochloride must be strictly followed to ensure the safety of personnel and the environment.

Application Area

Triaminoguanidine Hydrochloride is a chemical substance. Its application field is quite wide. In pyrotechnic materials, it can increase its combustion performance, make the fireworks more colorful and brighter. In propellants, it also has wonderful uses, which can help the propellant burn stably and efficiently, and help the aircraft soar to the sky. In some specific chemical reactions, it can be used as a unique reagent to guide the reaction in the desired direction. It has made great contributions in the field of energetic materials, providing key assistance for fireworks, flight propulsion, etc. It is a substance that cannot be ignored in chemical applications.

Research & Development

Triaminoguanidine Hydrochloride is worth studying. In our research process, the characteristics and uses of this material are the focus. Its structure is exquisite, its performance is unique, or it can be used in various fields to develop its talents.
After repeated experiments, our generation has carefully observed its physical and chemical properties and explored the reaction mechanism. It is hoped that it can tap its potential and expand the field of application. At the beginning, the progress was difficult, but it was unremitting research, and eventually it was achieved.
Looking at its development, the prospect is promising. In the synthesis of materials, it may be able to form new materials, which are strong and specific; in the field of medicine, it may also have unique effects. We should continue to forge ahead and use scientific methods to promote its development, hoping to add new colors to the industry and benefit the world, so that the power of Triaminoguanidine Hydrochloride can be fully demonstrated.

Toxicity Research

The chemical industry is related to people's livelihood, and the toxicity of natural things cannot be ignored. Triaminoguanidine Hydrochloride, for our chemical researchers, is the ultimate toxicity.
To understand its toxicity, we must use rigorous methods to observe its effect on living things. Or try it on insects to observe changes in their behavior; or test it on rats and dolphins to examine their physiological differences. After ingesting it, observe whether the body violates, whether the spirit is sluggish, and whether the organs are damaged.
The investigation of toxicity is not only about the immediate harm, but also about the long-term danger. If this thing flows into nature, what impact does it have on water, soil, and living things? Does it accumulate in the body of living things and cause ecological problems? We should carefully investigate the toxicity of Triaminoguanidine Hydrochloride for the benefit of the chemical industry, the protection of the environment, and the safety of people's livelihood. It is the responsibility of chemical researchers to do our best to clarify its advantages and disadvantages.

Future Prospects

Triaminoguanidine Hydrochloride is also a refined research object of transformation. Today, I am studying this, and my heart has not yet seen the future. This compound is unique, and it has great power in many domains. In the future, it may be used to make a big impact in the field and help the cure of diseases; or it may be exposed in the world of materials, and new materials will be needed. We work hard, study its rationale, and make good use of its properties, so that Triaminoguanidine Hydrochloride can be used in the world and benefit the people. It will become a great chapter for our researchers to develop.

Frequently Asked Questions

What are the uses of triaminoguanidine hydrochloride?

Trimethylolpropane triacrylate has a wide range of uses. In the field of material synthesis, it can be a monomer in the polymerization reaction and can participate in the process of cross-linking polymerization. Through the polymerization reaction, polymeric materials with specific properties can be generated. Such polymeric materials may have excellent mechanical properties, such as high strength and toughness, and can be used to manufacture key components in industries that require high-performance materials such as aerospace and automobile manufacturing.
Furthermore, in the coating industry, trimethylolpropane triacrylate also occupies an important place. It can be used as an active diluent for coatings, which can not only reduce the viscosity of coatings, make them more convenient to apply, but also participate in the curing reaction and improve the hardness, wear resistance and chemical corrosion resistance of coatings. When applied to the surface of metal, wood and other materials, a dense protective film can be formed, which can effectively resist the erosion of the external environment and prolong the service life of the material.
In the field of ink, its use should not be underestimated. It can be used as a cross-linking agent for ink, which can quickly cure the ink after printing, and improve the drying speed and adhesion performance of the ink. This helps to improve printing efficiency, and can ensure the clarity and durability of the printed pattern. It is widely used in packaging printing, advertising printing and other industries.
In terms of adhesives, trimethylolpropane triacrylate can enhance the bonding strength and heat resistance of the adhesive. When used to bond different materials, it can form a stable chemical bond, making the bond more firm, and in the fields of electronics, building decoration, etc., it can meet the demand for high performance of adhesives.
In short, trimethylolpropane triacrylate plays an indispensable role in many industrial fields. With its unique chemical properties, it provides an important help for the improvement of material properties and the optimization of processes in various industries.

What are the physical and chemical properties of triaminoguanidine hydrochloride?

The physicochemical properties of trihydroxyglutarate coenzyme A reductase are as follows:
This enzyme has the general characteristics of a protein. Its essence is a protein, which is connected by amino acids through peptide bonds to form a specific polypeptide chain structure. Its spatial structure is complex, including primary, secondary, tertiary and even quaternary structures. The primary structure is the order of amino acids, which determines the basic characteristics and functions of the enzyme; the secondary structure includes α-helix, β-fold, etc., which are maintained by hydrogen bonds between local amino acid residues of the polypeptide chain; the tertiary structure is a three-dimensional spatial structure formed by the further coiling and folding of the polypeptide chain on the basis of the secondary structure, which is maintained by a variety of non-covalent bonds such as hydrogen bonds, ionic bonds, hydrophobic interactions, etc., and disulfide bonds; some enzymes are composed of multiple subunits, and the interaction between subunits forms a quaternary structure.
It is quite sensitive to temperature. In a suitable temperature range, the enzyme activity is high and the catalytic reaction rate is good. Usually, when the temperature increases, the enzyme activity increases. Due to the increase in temperature, the molecular thermal motion intensifies, and the chance of the enzyme colliding with the substrate molecule increases. However, if the temperature is too high, the enzyme protein will denature, the spatial structure will be damaged, and the structure of the active center will be changed, resulting in the loss of enzyme activity. Generally, the suitable temperature for enzymes in animals is close to body temperature, about 37 ° C. If the enzyme is best active in the human body, it is around 37 ° C.
pH also has a great influence on its activity. Different enzymes have their own specific suitable pH range, within which the enzyme activity is the highest. Trihydroxyglutarate-coenzyme A reductase is suitable for pH that is usually near neutral. Peracid or peralkaline environments can change the charged state of enzyme proteins, affect the binding of enzymes to substrates and catalytic reactions, and even cause denaturation and inactivation of enzyme proteins under extreme pH conditions.
In addition, the activity of this enzyme is also regulated by a variety of factors. Some small molecule substances can be used as regulators of enzymes, such as some drugs can specifically bind to enzymes to change enzyme activity. Allosteric effect is also one of the regulatory methods. Small molecule effectors bind to the allosteric site of enzymes, causing changes in the conformation of enzyme molecules, which in turn affect enzyme activity. And the synthesis and degradation process of this enzyme is regulated by complex regulatory mechanisms in cells to adapt to the physiological needs of the body.

What is the production method of triaminoguanidine hydrochloride?

Trihydroxyglutarate coenzyme A reductase inhibitors (statins) are prepared by means of modern pharmaceutical technology.
The preparation of this drug initially needs to be explored from the metabolites of microorganisms. Many microorganisms can produce substances with unique structures under specific culture environments, including components related to statins. Specific strains such as Aspergillus terrestris are fermented and cultured in a suitable medium under carefully regulated conditions such as temperature, pH, and ventilation. The fermentation process is like a wonderful journey in the microscopic world. Microorganisms convert nutrients in the medium into various products according to their own metabolic mechanisms.
Then, a series of separation and purification techniques are used. This step is like carefully screening treasures among thousands of sundries. Using extraction method, the target components are transferred to a specific solvent phase according to the difference in solubility of different substances in mutually insoluble solvents; chromatography is also a key means to achieve the separation of each component by the different distribution coefficients of different substances between the stationary phase and the mobile phase, so that high purity crude products can be obtained.
However, the obtained crude products need to be further refined. Through recrystallization, the crude products are dissolved in a suitable solvent, and then slowly cooled or evaporated the solvent, so that the target substances are precipitated in the form of crystals, and the crystals have higher purity. And in the whole preparation process, quality control is indispensable. From the control of raw materials to the detection of products at each stage, it is necessary to accurately analyze their composition, purity, impurity content and other indicators to ensure the quality and efficacy of the final trihydroxyglutarate coenzyme A reductase inhibitor, in order to be used by medical practitioners, cure diseases, and benefit the health of all living beings.

What should be paid attention to when storing and transporting triaminoguanidine hydrochloride?

When storing and transporting trihydroxyglutarate coenzyme A, many key matters need to be paid attention to. This is the key to maintaining its stability and efficacy.
Bear the brunt, and the storage temperature is crucial. It should be placed in a low temperature environment, usually 2 to 8 degrees Celsius. Such low temperature conditions can effectively inhibit molecular activity, delay its degradation rate, and ensure the stability of its chemical structure. Just like the cold of winter, it can make everything dormant and preserve its original appearance. If the temperature is too high, the molecular movement will intensify, which will easily lead to structural changes and sharply reduce activity. For example, in the hot summer sun, everything is perishable.
Furthermore, it is necessary to pay attention to the humidity of the storage environment. Keep the environment dry and avoid moisture. Due to the high humidity, it is easy to cause hydrolysis reaction, resulting in the deterioration of trihydroxyglutarate-coenzyme A. It is like a canoe walking in the tidal sea, and it is easy to be decayed by water.
The packaging material should not be ignored. Air-tight and light-shielding packaging materials must be used. Air-tight can block the intrusion of oxygen and moisture, and light-shielding can avoid chemical reactions caused by light. This is like wearing a strong armor and cape to resist external invasion.
When transporting, ensure that the temperature conditions are constant. Using transportation equipment with temperature control function is like building a moving "constant temperature building" for it to avoid temperature fluctuations from damaging its activity.
In addition, the operation process must follow strict specifications. Whether it is storage or transportation during loading and unloading, care should be taken to prevent violent vibration and collision, so as not to damage its structure. This is because trihydroxyglutarate coenzyme A has a delicate structure, such as fine porcelain, it needs to be handled with care.

What is the market price range of triaminoguanidine hydrochloride?

Triaminoguanidine bicarbonate is an important chemical substance. Its market price range often fluctuates due to many factors.
In terms of its production process, different process levels will affect the cost, which in turn affects the price. Advanced and mature processes may be able to effectively reduce production costs and make products more competitive in market pricing; while relatively backward processes have high costs and high prices.
Furthermore, the market supply and demand situation has a great impact on its price. If the market demand for triaminoguanidine bicarbonate is strong and the supply is relatively short, merchants may take advantage of the situation to raise prices; conversely, if the market supply is sufficient and the demand is limited, the price may be lowered in order to seek sales.
In addition, the price of raw materials is also a key factor. The rise and fall of raw material prices is directly related to production costs. If the price of raw materials rises sharply, the price of triaminoguanidine bicarbonate will also rise; if the price of raw materials is stable or reduced, the product price is also expected to stabilize or decrease.
At present, the market price range of triaminoguanidine bicarbonate is roughly in the range of tens to hundreds of yuan per kilogram. However, this is only a rough range, and the actual price may vary due to factors such as quality differences, number of transactions, and geographical differences. In block trade, suppliers may give certain price concessions due to huge purchases; and in different regions, prices will vary due to different transportation costs and market competition. In short, the market price is in dynamic changes and needs to be judged in detail according to specific market conditions.