Hexamine CAS 100-97-0 is a widely used compound. It is also known as hexamethylenetetramine. The product is a white to off-white crystalline powder. Hexamine is soluble in water and some organic solvents.
The molecular formula of hexamine is C6H12N4. Its molecular weight is 140.19 g/mol. Hexamine has many synonyms, including urotropine and methenamine.
Hexamine is used as a curing agent for resins and plastics. It can be used as a vulcanizing agent for rubber. It can also be used as a shrink-proofing agent for textiles.
The compound is used in the production of biocides and explosives. When combined with sodium hydroxide and sodium phenolate, it is used as a phosgene absorber in gas masks.
Hexamine is flammable and can explode. It releases hydrogen cyanide when heated. It produces methane, hydrogen, and nitrogen gases upon decomposition.
Hexamine is stable under normal conditions and decomposes in weak acids to produce ammonia and formaldehyde.
This product is a core raw material for industrial and pharmaceutical grades, with the chemical name "Methenamine" (CAS Number: 100-97-0), molecular formula C₆H₁₂N₄, and a constant molar mass of 140.19. It appears as white crystalline powder or colorless lustrous crystals, with almost no obvious odor, only a slight characteristic smell. It has a fine texture and no visible impurities to the naked eye.
Under normal circumstances, the product is stable in nature and features the characteristics of "stable at low temperatures and controllable decomposition at high temperatures". It does not volatilize or absorb moisture at room temperature; when the temperature rises to around 263℃, partial sublimation and slight decomposition occur; above 300℃, it gradually releases specific components. Its overall physical form and chemical properties all meet the core standards of industrial and pharmaceutical grade raw materials.
It has clear acid-base characteristics, with a pKa value of 5.1 at 25℃. The pH value of a 100g/L aqueous solution is stably in the range of 7-10 at 20℃, showing weak alkalinity, which is suitable for most industrial reaction systems. It has targeted solubility: the water solubility is as high as 895g/L at 20℃, and the solution is clear and colorless. Meanwhile, it is soluble in organic solvents such as ethanol and chloroform, but insoluble in ether, benzene, etc., facilitating dissolution and separation operations in different scenarios.
It has slight irritation to the skin, and long-term large-area contact may cause dermatitis, so basic protection should be taken. The LD₅₀ of intravenous injection in rats is 9200mg/kg, indicating a low toxicity level, and the safety is controllable under standardized operations. However, attention should be paid to its flammable property: it burns immediately when exposed to open flames and high temperatures, with smokeless flames. Mixing with oxidants may form explosive mixtures, so risky scenarios must be strictly avoided.
Its core advantage lies in "environmentally responsive functions". For example, it can decompose into ammonia and formaldehyde in weakly acidic solutions. This characteristic enables it to meet the bactericidal needs in the pharmaceutical field and adapt to curing and promotion reactions in the industrial field. At the same time, its mixed system with caustic soda and sodium phenolate can be used as a phosgene absorber, expanding the application possibilities in special protection scenarios.
Relying on its adaptability to multiple scenarios, this product is widely used in three major fields: industry, medicine, and special protection. The specific scenarios are as follows:
It serves as a core curing agent for resins and plastics, which can accelerate the cross-linking and molding of polymer materials and improve the hardness and stability of products. It is also used as "Accelerator H" in the rubber industry, which can shorten the rubber vulcanization time and optimize the elasticity and durability of rubber products. In addition, it can be used as a shrinkage inhibitor for textiles to reduce the shrinkage rate of fiber products after washing, and as a raw material for the synthesis of bactericides and industrial explosives.
Oral preparations can be used for the treatment of mild urinary tract infections. After entering the human body, the product decomposes to produce formaldehyde in the acidic urine environment, and inhibits the reproduction of pathogenic bacteria in the urethra through the bactericidal effect of formaldehyde, thereby relieving symptoms such as frequent urination and urgent urination. When used externally, it can be made into ointments or lotions for the treatment of tinea, skin antiperspirant care, and especially has a clear improvement effect on axillary osmidrosis (bromhidrosis), making it an important raw material for external dermatological preparations.
After mixing with caustic soda and sodium phenolate in a specific ratio, it can be used as a phosgene absorber in gas masks. It can quickly absorb phosgene molecules in the air, protect the respiratory tract safety of users, and is commonly used in special operation scenarios such as chemical industry and national defense.
It is packaged in plastic barrels with excellent sealing performance or paper barrels lined with waterproof films. The net content per barrel can be customized according to requirements (usually 25kg/barrel, 50kg/barrel). The product name, CAS Number, dangerous goods mark (flammable, slightly irritating) and emergency contact information must be clearly marked on the packaging.
During transportation, it must be strictly isolated from oxidants and acids, and mixed transportation in the same vehicle is prohibited. The transport vehicles must have good ventilation conditions, and closed-space transportation should be avoided. Sun exposure and rain should be avoided throughout the process, and the temperature inside the carriage should be controlled below 30℃ to prevent the product from sublimating in advance or changing its properties.
During unloading, it should be handled with care to avoid collision and damage to the packaging barrels, which may lead to product leakage. If leakage occurs accidentally, it should be immediately covered and collected with dry sand, and direct flushing with water is prohibited (to prevent diffusion after dissolution). The collected products should be handled by professional institutions.
1. What is Hexamine CAS 100-97-0?
Hexamine CAS 100-97-0 is a versatile organic compound that can be used in a variety of industrial applications.
2. What are the main applications of hexamine?
It is used in the production of resins, adhesives, pharmaceuticals, and as a fuel source.
3. Is hexamine safe to use?
Yes, but it should be handled with care due to its flammable nature. Follow safety guidelines.
4. What are the physical properties of hexamine?
Hexamine is a white crystalline powder with a melting point of 281°C and is hygroscopic.
5. How should hexamine be stored?
Store in a cool, dry place away from moisture and heat to maintain its stability.
Hexamine CAS 100-97-0 is a widely used compound. It is also known as hexamethylenetetramine. The product is a white to off-white crystalline powder. Hexamine is soluble in water and some organic solvents.
The molecular formula of hexamine is C6H12N4. Its molecular weight is 140.19 g/mol. Hexamine has many synonyms, including urotropine and methenamine.
Hexamine is used as a curing agent for resins and plastics. It can be used as a vulcanizing agent for rubber. It can also be used as a shrink-proofing agent for textiles.
The compound is used in the production of biocides and explosives. When combined with sodium hydroxide and sodium phenolate, it is used as a phosgene absorber in gas masks.
Hexamine is flammable and can explode. It releases hydrogen cyanide when heated. It produces methane, hydrogen, and nitrogen gases upon decomposition.
Hexamine is stable under normal conditions and decomposes in weak acids to produce ammonia and formaldehyde.
This product is a core raw material for industrial and pharmaceutical grades, with the chemical name "Methenamine" (CAS Number: 100-97-0), molecular formula C₆H₁₂N₄, and a constant molar mass of 140.19. It appears as white crystalline powder or colorless lustrous crystals, with almost no obvious odor, only a slight characteristic smell. It has a fine texture and no visible impurities to the naked eye.
Under normal circumstances, the product is stable in nature and features the characteristics of "stable at low temperatures and controllable decomposition at high temperatures". It does not volatilize or absorb moisture at room temperature; when the temperature rises to around 263℃, partial sublimation and slight decomposition occur; above 300℃, it gradually releases specific components. Its overall physical form and chemical properties all meet the core standards of industrial and pharmaceutical grade raw materials.
It has clear acid-base characteristics, with a pKa value of 5.1 at 25℃. The pH value of a 100g/L aqueous solution is stably in the range of 7-10 at 20℃, showing weak alkalinity, which is suitable for most industrial reaction systems. It has targeted solubility: the water solubility is as high as 895g/L at 20℃, and the solution is clear and colorless. Meanwhile, it is soluble in organic solvents such as ethanol and chloroform, but insoluble in ether, benzene, etc., facilitating dissolution and separation operations in different scenarios.
It has slight irritation to the skin, and long-term large-area contact may cause dermatitis, so basic protection should be taken. The LD₅₀ of intravenous injection in rats is 9200mg/kg, indicating a low toxicity level, and the safety is controllable under standardized operations. However, attention should be paid to its flammable property: it burns immediately when exposed to open flames and high temperatures, with smokeless flames. Mixing with oxidants may form explosive mixtures, so risky scenarios must be strictly avoided.
Its core advantage lies in "environmentally responsive functions". For example, it can decompose into ammonia and formaldehyde in weakly acidic solutions. This characteristic enables it to meet the bactericidal needs in the pharmaceutical field and adapt to curing and promotion reactions in the industrial field. At the same time, its mixed system with caustic soda and sodium phenolate can be used as a phosgene absorber, expanding the application possibilities in special protection scenarios.
Relying on its adaptability to multiple scenarios, this product is widely used in three major fields: industry, medicine, and special protection. The specific scenarios are as follows:
It serves as a core curing agent for resins and plastics, which can accelerate the cross-linking and molding of polymer materials and improve the hardness and stability of products. It is also used as "Accelerator H" in the rubber industry, which can shorten the rubber vulcanization time and optimize the elasticity and durability of rubber products. In addition, it can be used as a shrinkage inhibitor for textiles to reduce the shrinkage rate of fiber products after washing, and as a raw material for the synthesis of bactericides and industrial explosives.
Oral preparations can be used for the treatment of mild urinary tract infections. After entering the human body, the product decomposes to produce formaldehyde in the acidic urine environment, and inhibits the reproduction of pathogenic bacteria in the urethra through the bactericidal effect of formaldehyde, thereby relieving symptoms such as frequent urination and urgent urination. When used externally, it can be made into ointments or lotions for the treatment of tinea, skin antiperspirant care, and especially has a clear improvement effect on axillary osmidrosis (bromhidrosis), making it an important raw material for external dermatological preparations.
After mixing with caustic soda and sodium phenolate in a specific ratio, it can be used as a phosgene absorber in gas masks. It can quickly absorb phosgene molecules in the air, protect the respiratory tract safety of users, and is commonly used in special operation scenarios such as chemical industry and national defense.
It is packaged in plastic barrels with excellent sealing performance or paper barrels lined with waterproof films. The net content per barrel can be customized according to requirements (usually 25kg/barrel, 50kg/barrel). The product name, CAS Number, dangerous goods mark (flammable, slightly irritating) and emergency contact information must be clearly marked on the packaging.
During transportation, it must be strictly isolated from oxidants and acids, and mixed transportation in the same vehicle is prohibited. The transport vehicles must have good ventilation conditions, and closed-space transportation should be avoided. Sun exposure and rain should be avoided throughout the process, and the temperature inside the carriage should be controlled below 30℃ to prevent the product from sublimating in advance or changing its properties.
During unloading, it should be handled with care to avoid collision and damage to the packaging barrels, which may lead to product leakage. If leakage occurs accidentally, it should be immediately covered and collected with dry sand, and direct flushing with water is prohibited (to prevent diffusion after dissolution). The collected products should be handled by professional institutions.
1. What is Hexamine CAS 100-97-0?
Hexamine CAS 100-97-0 is a versatile organic compound that can be used in a variety of industrial applications.
2. What are the main applications of hexamine?
It is used in the production of resins, adhesives, pharmaceuticals, and as a fuel source.
3. Is hexamine safe to use?
Yes, but it should be handled with care due to its flammable nature. Follow safety guidelines.
4. What are the physical properties of hexamine?
Hexamine is a white crystalline powder with a melting point of 281°C and is hygroscopic.
5. How should hexamine be stored?
Store in a cool, dry place away from moisture and heat to maintain its stability.
