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Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Aminoguanidine Nitrate

Specifications

HS Code	744008
Chemical Formula	CH6N4·HNO3
Molar Mass	136.09 g/mol
Appearance	White crystalline powder
Solubility In Water	Soluble
Density	1.44 g/cm³
Melting Point	158 - 162 °C
Boiling Point	Decomposes
Odor	Odorless
Ph In Solution	Basic
Stability	Stable under normal conditions

As an accredited Aminoguanidine Nitrate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Aminoguanidine Nitrate: Packed in 1 -kg bags for convenient handling and storage.
Storage	Aminoguanidine Nitrate should be stored in a cool, dry, well - ventilated place away from direct sunlight. It should be isolated from heat sources, oxidizing agents, and combustibles. Contain it in tightly - sealed containers to prevent moisture absorption and ensure storage stability, reducing the risk of decomposition or accidental chemical reactions.
Shipping	Aminoguanidine Nitrate is a chemical often shipped in special, corrosion - resistant containers. Packaging adheres to strict safety regulations. Shipments are monitored to ensure stable storage conditions during transport, avoiding shock and high temperatures.

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General Information

Historical Development

The industry of chemical industry has changed with each passing day. There is a name Aminoguanidine Nitrate, which originated and was originally studied by the Fang family.
In the past, science and technology have not yet developed, and the study of all kinds of materials is still in ignorance. However, the wise do not give up, and gradually explore the seclusion. Among many attempts, Aminoguanidine Nitrate began to emerge.
At the beginning, the preparation method was simple, and the obtained product was difficult to be called excellent. However, the craftsmen had great ambitions and have been improved again and again. As the years go by, the process is gradually maturing, and its quality is also getting better and better.
Therefore, Aminoguanidine Nitrate is used in the field of chemical industry, and its use is becoming more and more extensive. It can be used as a raw material for other things, or for reactions in special ways. Looking at its course, it has gradually become an indispensable thing in the chemical industry since the end of time, which is actually the work of the predecessors. Future generations should follow it and make it more apparent to the world.

Product Overview

"Overview of Aminoguanidine Nitrate Products"
Aminoguanidine nitrate is one of the unique characteristics of chemical products. Its color is white and pure, and its shape is like fine crystals. This product is used in many fields. It is used in industrial production and can be a key raw material for specific reactions, promoting its smooth progress. In scientific research and exploration, it is often used as an experimental reagent to help researchers explore chemical mysteries.
When preparing, it is necessary to strictly follow a specific process, control temperature, control time and accurately match raw materials, in order to obtain high-quality amino guanidine nitrate. Its chemical properties are active, and it can react significantly when encountering certain substances, so it is also necessary to be careful in storage and transportation. It should be placed in a cool and dry place to avoid contact with incompatible substances. In this way, we can ensure that this product has stable performance and outstanding effectiveness, contributing to the development of various fields.

Physical & Chemical Properties

Nowadays, there is a substance called Aminoguanidine Nitrate, whose physical and chemical properties can be investigated. The color state of this substance may have its own characteristics, and the texture also has its own characteristics. Looking at its solubility, it varies in various solvents, either soluble or insoluble, which is related to the interaction between its molecular structure and the solvent. Its melting point and boiling point are also important physical properties, which are related to the strength of intermolecular forces.
In terms of chemical properties, its stability needs to be carefully observed. In different environments, it may react or remain stable. Its nitrogen and other elements, or have redox properties, meet with other substances, or undergo wonderful chemical changes. All of these are the cornerstones of our chemical researchers' in-depth investigation to clarify their properties and pave the way for their wider use.

Technical Specifications & Labeling

"Technical Specifications and Labeling of Aminoguanidine Nitrate (Product Parameters) "
There are aminoguanidine nitrate now, and its technical specifications are the key. When the purity of this product reaches a very high standard, the impurities must be minimal. Looking at its properties, it should be in a specific form, with pure color and no impurities.
At one end of the label, the product parameters must be detailed. On the package, the name "Aminoguanidine Nitrate" should be clearly engraved, and the exact content label should be attached, so that the user can see at a glance. And indicate the scope of application, as well as the method of storage, to prevent its qualitative change. The appropriate range of temperature and humidity should be clearly marked, so that the quality of this product can be guaranteed, and its effectiveness can be fully demonstrated when applied, so as not to be wrong.

Preparation Method

The method of making aminoguanidine nitrate is crucial to the raw materials and production process, reaction steps and catalytic mechanism. First, appropriate raw materials, such as nitrogen-containing compounds and specific acids, are taken as the basis for making this substance. The production process needs to be precisely controlled by temperature and time. The reaction steps are rigorous and orderly. First, the raw materials are mixed under specific conditions, or the raw materials are heated or catalyzed to promote the reaction. If the temperature is controlled within a certain range, the interaction between molecules will form the initial form of aminoguanidine nitrate. The catalytic mechanism depends on a suitable catalyst to accelerate the reaction, yield and purity. In this way, according to these principles, aminoguanidine nitrate can be prepared, providing a good material for various applications.

Chemical Reactions & Modifications

Nowadays, there is Aminoguanidine Nitrate, and its chemical reaction and modification are quite critical in chemical research. Looking at its reaction may involve many complex mechanisms, and in order to clarify its details, it is necessary to explore it carefully. The way of modification is related to the optimization of performance, which can be considered from the aspects of structural adjustment and addition of additives. For example, under specific conditions, the molecular configuration may be changed, which in turn affects its chemical activity. Or add suitable additives to promote its interaction with other substances to achieve the purpose of modification. In this way, in-depth study of the chemical reaction and modification of Aminoguanidine Nitrate is expected to open up new avenues and gain a lot in related fields.

Synonyms & Product Names

Aminoguanidine Nitrate, its synonymous name and the name of the commodity are quite important. In my chemical research, knowing its synonymous name, we can communicate accurately, and there is no risk of error. Its synonymous name may be called "aminoguanidine nitrate". And the name of the commodity, in the chemical market, also has other names. These two, like the wings of a bird and the two wheels of a car, are indispensable for our generation to study the nature, quality and use of this thing. Knowing its synonymous name can be used in the words of hundreds of schools; understanding the name of the commodity, Fang Xiao knows the state of circulation between the markets. Therefore, it is the priority of chemical research to explore the synonymous name and the name of the commodity of Aminoguanidine Nitrate.

Safety & Operational Standards

"Safety Regulations on Aminoguanidine Nitrate"
Aminoguanidine nitrate is also a chemical substance. It is of paramount importance to its safety and operating standards.
In the method of storage, it is necessary to choose a cool, dry and well-ventilated place. Avoid open flames and hot topics to prevent accidents. Because of its certain chemical activity, heat may cause dangerous changes. And it should be stored separately from oxidants and acids, and must not be mixed to avoid chemical reactions and safety risks.
When operating, the operator must be professionally trained and familiar with the operating procedures. Wear suitable protective equipment, such as protective clothing, gloves and goggles, to ensure their own safety. The operation site should be equipped with the corresponding variety and quantity of fire fighting equipment and leakage emergency treatment equipment.
If a leak occurs accidentally, the personnel in the leakage contaminated area should be quickly evacuated to a safe area and quarantined, and access should be strictly restricted. Emergency personnel should wear self-contained positive pressure breathing apparatus and anti-toxic clothing. Do not let the leak come into contact with combustible substances. In the event of a small leak, a clean shovel can be used to collect it in a dry, clean, covered container. If there is a large leak, an embankment should be built or a pit should be dug for containment, and it should be transferred to a tanker or a special collector by pump for recycling or transportation to a waste treatment site for disposal.
The handling process should also be careful, and it should be handled lightly to prevent damage to packaging and containers. Only in this way can we ensure the safety of aminoguanidine nitrate during storage and use, follow the operating specifications, and avoid accidents.

Application Area

Aminoguanidine nitrate (Aminoguanidine Nitrate) is widely used. In the medical field, it can assist in the research of the treatment of diseases, or as the raw material of medicine stones, hoping to relieve the suffering of people's diseases. In the field of engineering, it can be used as an auxiliary of special materials to make the material heterogeneous and increase its use. In the road of scientific research, it is an important agent for experiments, to help explore the secrets of physics and chemistry, and to enlighten the end of science. With its unique characteristics, this product is available in the fields of medicine, engineering, and scientific research. It is used by the world to promote the progress of various industries. In the future, I hope to develop its growth and benefit the world.

Research & Development

My generation studied chemical technology, and I have been studying it for many years in Aminoguanidine Nitrate. It is unique in nature and widely used, which is related to the progress of many fields.
At the beginning, I explored the method of its synthesis, and after repeated experiments, the formula and conditions were carefully considered. The selection of raw materials, the temperature of the reaction, and the control of the duration are all key. Despite many obstacles, I am determined.
Then, observe its characteristics, and record and analyze the changes in different environments. It is hoped that its essence can be clarified, paving the way for subsequent applications.
Today, this achievement is gradually emerging, and it is available in industrial production and scientific research and exploration. However, we also know that the road ahead is still long, and there are still many unknowns to be solved. When continued research, we hope to promote the wider application and more development of this product, and contribute to the progress of chemical industry.

Toxicity Research

There is a chemical substance today, named Aminoguanidine Nitrate. I am a chemical researcher, and I want to study its toxicity. Observing this substance is the most important thing to study.
Observe its properties in detail, and do everything in the experiment with care. Observe its interaction with other substances, and measure how fine it becomes. Observe its entry into the body of a living being, and observe that it should be in it.
After many tests, we know its toxicity. If the dosage is different, the biological response is also different. More is less harmful, and less is slower.
My research is to clarify the reason for its toxicity, to warn those who use this product, and to keep a note for future researchers, so that this chemical product can be used properly to avoid its harm and promote its benefits.

Future Prospects

Looking at the world today, in the chemical industry, Aminoguanidine Nitrate has extraordinary potential, and its future prospects are fascinating. This substance, or in the field of medicine, can develop its talents, help the cure of diseases, and make the patient healthy. Or in the world of materials, it shines, adding to the creation of new materials, making the equipment stronger and more beautiful, and life more convenient and better. Although there may be thorns in the road ahead, our generation of chemical researchers should move forward with great ambition. Trust that with unremitting research, Aminoguanidine Nitrate will be able to shine in the future, for the well-being of the world, paint a gorgeous picture, and show endless brilliance.

Where to Buy Aminoguanidine Nitrate in China?

As a trusted Aminoguanidine Nitrate manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Aminoguanidine Nitrate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of aminoguanidine nitrate?

What are the main uses of hydroxyphenidate butyrate? This drug is a strange agent, and in the medical system, the uses involved are quite critical.
Its primary use is to relieve spasms. In the human body, the meridians and muscles occasionally spasm, and hydroxyphenidate butyrate can exert wonderful power to relax the tense muscles and gradually slow down the spasms. Just like a gust of wind, the branches are swaying non-stop, and this medicine is like a gentle wind, making the branches and leaves calm again. The meridians are smooth, the muscles are peaceful, and many discomforts caused by spasms can be relieved.
In addition, it also has unique power in regulating the nervous system. The human spirit may be excited or disturbed by external disturbances or internal changes. Hydroxypyrene butyrate can be like a delicate tuner, adjusting the rhythm of the nervous system to make it peaceful and stable. The restless state gradually disappears, and the mind can be clear, just like the chaotic state is gradually penetrated by the sky, and the clear appearance can be reproduced.
In addition, when dealing with the pain caused by certain diseases, it can also be helpful. Pain is like thorns stabbing the body, making it difficult. This medicine can act on the pathway of pain transmission, weakening the feeling of pain, just like laying a soft cushion between thorns and skin, relieving the pain of tingling. Although it is not a cure, it can bring patients a moment of comfort when relieving pain, so that they can slightly relieve the suffering of pain and deal with the disease in a better state.
In short, butyric acid hydroxypiperm has its unique effects in relieving spasms, regulating nerves, relieving pain, etc., and occupies an important position in the way of medical treatment and saving people.

What are the chemical properties of aminoguanidine nitrate?

Nitrothioguanidine is a class of substances with unique chemical properties. It is active and has significant uses in many fields.
Nitrothiohydroguanidine contains elements such as nitrogen, hydrogen, sulfur, and oxygen, and has a delicate structure. Nitrogen atoms are easy to bond with other atoms due to their lone pair electrons, giving this substance reactivity. Hydrogen atoms are active and can participate in acid-base and hydrogen bond-related reactions. Sulfur and oxygen atoms build polar regions in molecules, affecting their solubility and stability.
This substance is often a key intermediate in the field of synthetic chemistry. Chemists can use its special structure to ingeniously introduce functional groups through specific reactions to build complex and special functional organic molecules for drug research and development and material creation. In the field of medicine, or it can be modified to obtain compounds with specific pharmacological activities, which are expected to fight difficult diseases and benefit human health.
In materials science, nitrothioguanidine can participate in the preparation of high-performance polymer materials. Its active groups can initiate polymerization reactions, giving polymers unique physical and chemical properties, such as high strength, high toughness, and excellent thermal stability. It is used in high-end fields such as aerospace and automobile manufacturing to improve material properties and product quality.
However, nitrothioguanidine is active, but there are also challenges. Storage and transportation should be cautious to prevent the reaction from getting out of control due to contact with unsuitable substances. During operation, scientific researchers and industrial workers must strictly abide by safety regulations and use appropriate protective measures to ensure their own safety and stable production environment.
In summary, nitrothioguanidine is of great significance to scientific research and industrial production due to its unique chemical properties. Rational use will definitely contribute to human progress and development, but it should not ignore its latent risks. It needs to be treated with caution and used scientifically.

What are the physical properties of aminoguanidine nitrate?

Aminoguanidine cyanate is a chemical substance. Its physical properties are quite important and are related to many uses.
The shape of this substance is mostly white crystalline at room temperature, with fine texture and purity. Its color is pure white, without noise, and this pure color also reflects its purity.
As for its melting point, it is about a specific value range. When the temperature gradually rises to a certain level, this substance gradually melts from solid to liquid. The characteristics of this melting point are key parameters in many industrial operations and experimental processes. Because of the exact value of its melting point, it can help craftsmen and scholars control the degree of heating and ensure the smooth implementation of related processes.
Furthermore, the solubility of aminoguanidine cyanate also has its own characteristics. In water, its solubility is moderate, not extremely soluble, nor insoluble. This property allows it to achieve just the right effect in aqueous solution-related applications. If a solution of a specific concentration needs to be prepared, its moderate solubility is convenient for precise operation. It can be added in moderation according to demand to achieve the required concentration.
In addition, its density is also a significant physical property. The specific density value determines its location and distribution in the mixed system. In some scenarios involving the mixing of multiple substances, the difference in density can lead to different conditions of stratification or uniform dispersion of each substance, and the density characteristics of aminoguanidine cyanate play a role in it and affect the physical state of the whole system.
In summary, the physical properties of aminoguanidine cyanate, such as morphology, melting point, solubility and density, are of great significance in many fields such as industrial production and scientific research, laying the foundation for its rational application and in-depth exploration.

What are the precautions for aminoguanidine nitrate in storage and transportation?

For aminoguanidine cyanate, many precautions need to be paid attention to during storage and transportation.
The first priority is its stability. This material is more active and easy to react. The storage environment should be dry and cool, away from direct sunlight and heat sources. If the temperature is too high, it may cause it to decompose and cause danger. If stored in the warehouse, the temperature should be controlled in a suitable range, and heat or warm sources should not be brought close.
Second discussion on packaging. It must be stored in a suitable container to ensure a good seal. To prevent contact with air and water vapor. If the packaging is damaged, aminoguanidine cyanate will be exposed, react with external substances, or cause deterioration, and even cause safety accidents. The packaging materials used should be corrosion-resistant and can resist its chemical effects.
When transporting, strictly abide by relevant laws and regulations. This is a dangerous chemical, and the transportation qualifications and procedures are stipulated. Transportation vehicles need to be equipped with corresponding safety equipment, such as fire extinguishers, leakage emergency treatment equipment, etc. Escort personnel should also be familiar with the characteristics of aminoguanidine cyanate and emergency treatment methods.
And the loading and unloading process, be careful. Handle with care, avoid bumping, heavy pressure, and avoid damage to the packaging. If there is a leak during transportation, deal with it as soon as possible according to the emergency plan. Evacuate the crowd, isolate the scene, and professionals collect and clean up the leakage in an appropriate manner, so as not to pollute the environment and endanger public safety.
In short, the storage and transportation of aminoguanidine cyanate is related to safety and quality, and all aspects must be treated with rigor and must not be negligent.

What are the common synthesis methods of aminoguanidine nitrate?

Sadly, the common synthesis of steroidal hydroxyamides is an important matter in organic synthesis. Now let's come to you.
First, the condensation reaction of carboxylic acid and amine as raw materials. Activate the carboxylic acid first, such as converting it into an acid chloride, and treat the carboxylic acid with a reagent such as dichlorosulfoxide to obtain an acid chloride. The acid chloride has high activity and meets amine compounds. In a suitable alkaline environment, such as the presence of pyridine or triethylamine, the two react quickly to form the structure of steroidal hydroxyamides. This is a convenient method, but the acid chloride is active, and attention should be paid to the precise protection and operation when preparing and reacting.
Second, the ammonolysis reaction of esters and amines is used. First, the corresponding esters are prepared from suitable alcohols and carboxylic acids. After the steroidal carboxylic acid is esterified, it reacts with the amine under heating or catalyst conditions. In this process, the nitrogen atom of the amine attacks the carbonyl carbon of the ester nucleophilically, and the alkoxy group leaves to form an amide bond. The conditions of this method are relatively mild, but the reaction rate may be slightly slower than that of the acid chloride method, and it is necessary to pay attention to the matching of the activity of the ester and the nucleophilicity of the amine.
Third, with the help of active amide intermediates. Mix with carboxylic acid and amine with a condensing agent such as dicyclohexyl carbodiimide (DCC). DCC first reacts with carboxylic acid to form an active amide intermediate, and then amines attack this intermediate to form the target ster After the DCC reaction, dicyclohexylurea is formed, which can be removed by simple filtration, which is convenient to operate, and is very popular in many syntheses.
There are also methods through biosynthetic pathways. Some microorganisms or enzymes can catalyze the formation of steroidal hydroxyamide structures under mild conditions. This biological method has the advantages of green and high selectivity, but it requires strict requirements on the reaction system. It needs to precisely regulate the growth environment of microorganisms or the activity conditions of enzymes, and is currently used on a large scale or limited.
All methods have their own advantages and disadvantages. For organic synthesis, people should choose carefully according to the characteristics of the substrate, product requirements and experimental conditions. Only then can the ideal synthesis effect be achieved.