Aluminum Fluoride Monohydrate

Duxiu Chemical

Specifications

HS Code	937365
Chemical Formula	AlF3·H2O
Molar Mass	83.98 g/mol (anhydrous basis, with water contribution it's different)
Appearance	White crystalline powder
Solubility In Water	Slightly soluble
Density	Approx. 2.88 g/cm³
Melting Point	Decomposes before melting
Odor	Odorless
Ph In Aqueous Solution	Acidic due to hydrolysis
Thermal Stability	Starts to lose water upon heating
Crystal Structure	Complex structure with water molecule interacting with AlF3 units

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

Packing & Storage

Packing	Aluminum Fluoride Monohydrate: 50 - kg bags, securely sealed for chemical protection.
Storage	Aluminum Fluoride Monohydrate should be stored in a cool, dry place away from sources of heat and ignition. Keep it in a tightly - sealed container to prevent moisture absorption, as it can react with excessive humidity. Store it separately from incompatible substances like strong acids and bases to avoid potential chemical reactions that could compromise its integrity and safety.
Shipping	Aluminum Fluoride Monohydrate is shipped in well - sealed containers to prevent moisture absorption and contamination. Special care is taken due to its chemical nature, ensuring compliance with safety regulations during transport.

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General Information

Historical Development

Aluminum Fluoride Monohydrate, the history of its development, can be described. Ancient times, the transformation is not yet known, and this product is not known. In modern times, the time of transformation is long, and the research is difficult. At the beginning, observing its nature and analyzing its characteristics, we can gain a little knowledge. The prosperity of science and technology, the refinement of general techniques, in its development and production, has been greatly improved. What was done in the past can be modeled now. Its use is also useful, and it is beneficial to both production and production. From undiscovered to known, it is rare to use and commonly used. The development of Aluminum Fluoride Monohydrate is a good example in the history of chemistry. I know how to use it.

Product Overview

Today, there is a product called "Aluminum Fluoride Monohydrate", which is a chemical product. Its unique properties are white crystalline powder, insoluble in water, but can react with alkalis. This product is widely used in many fields of industry, such as in aluminum production, it can reduce the melting point of alumina, help the aluminum smelting process, and greatly save energy. In enamel and ceramic manufacturing, it can increase its luster and hardness, and improve quality. In addition, it is also indispensable in optical glass manufacturing, which can improve the properties of glass. With its own characteristics, this product plays an important role in various industries and promotes industrial progress and development. It is a chemical product that cannot be ignored.

Physical & Chemical Properties

The properties of a substance are related to its use. Today there is Aluminum Fluoride Monohydrate, and its physical and chemical properties can be investigated.
As far as its physical properties are concerned, the color is often white, the quality is like powder chips, fine and uniform. Under room temperature, it is stable and unchanged, and it is not easy to phase with the surrounding area. Its shape is fixed, no fluid state, and it is a solid state.
In terms of its chemical properties, when it encounters strong acids and alkalis, it should be suitable. In acids, it can gradually dissolve, and ions divide; when it encounters alkalis, it also reacts to form new substances. However, its reaction is slow, depending on the strength and amount of acid and base. This is determined by its internal structure and combination of elements. Studying the properties of this thing can be used by the chemical and material industries to understand its rationality and make good use of it, which is of great benefit.

Technical Specifications & Labeling

Aluminum Fluoride Monohydrate is one of the chemical products. Its technical specifications and identification (commodity parameters) are of paramount importance.
Looking at its technical specifications, the first purity must reach a very high standard, and the impurity content must be minimal. Its crystal morphology also has specific requirements, and the particle size distribution should be uniform.
As for the identification (commodity parameters), clearly state the composition and content, so that the user can see at a glance. And on the package, there should be a clear warning label to inform its behavior and harm, so that people can use it with caution.
Both of these are key to the preparation, circulation and application of Aluminum Fluoride Monohydrate, and are indispensable to ensure its high quality and safety.

Preparation Method

To make aluminum fluoride monohydrate, the raw materials and production process, reaction steps and catalytic mechanism are the key.
The raw materials are selected, and high-purity aluminum hydroxide and hydrofluoric acid should be used. The two are pure to ensure the quality of the product.
At the beginning of the production process, aluminum hydroxide is slowly added to the hydrofluoric acid solution, and stirred moderately to ensure that the two are fully in contact. The reaction steps are as follows: first, aluminum hydroxide and hydrofluoric acid are initially combined, and aluminum fluoride and water are produced. However, the reaction is not completed, and subsequent fine regulation is required.
The catalytic mechanism cannot be ignored. The introduction of a specific catalyst can increase the reaction rate and reduce energy consumption. In the reaction vessel, the catalyst is active, reducing the activation energy of the reaction and promoting molecular collision, so that the reaction can proceed efficiently. So, according to this raw material, process, step and catalytic method, one of the best quality hydrated aluminum fluoride can be obtained.

Chemical Reactions & Modifications

The study of the transformation and modification of aluminum fluoride monohydrate is quite important in today's world. The transformation of this material is related to the change of its properties and also involves many uses.
The process of its transformation can be explored. If it is in harmony with it, or in case of changes in temperature and pressure, it can be different from its transformation. In this regard, it is necessary to carefully observe the regulations of its application and clarify the reasons for its application.
The purpose of modification is to improve its properties and increase its use. Or adjust its structure, or add other substances, in the hope of better properties. If this thing is more stable, or increase its activity, it is all for the purpose of modification.
We are chemical researchers, and when we investigate this, we will find that aluminum fluoride monohydration should be the secret of modification, paving the way for its wide use and contributing to the progress of chemistry.

Synonyms & Product Names

Aluminum Fluoride Monohydrate, that is, aluminum fluoride monohydrate. The synonym and trade name of this substance are quite important. Its synonyms are called aluminum fluoride monohydrate, and some are named after its chemical composition. As for the trade name, it is traded in the market, and it may have different names depending on different manufacturers and uses.
Gu Yun: "The name is the real object." For chemical substances, although their names are different, their essence is unique. Aluminum fluoride monohydrate has stable properties and is often used in chemical industries. It can be used as a catalyst or in metallurgical processes, and its melting power is significant.
Although the synonyms are different from the trade names, the essence is this specific chemical substance. When using and trading, it is necessary to carefully identify the name and clarify its essence to avoid confusion and mistakes.

Safety & Operational Standards

"Safety and Operation Specifications for Aluminum Fluoride Monohydrate Products"
Aluminum Fluoride Monohydrate is an important substance for chemical research. Its safety and operation specifications are related to the smooth research and the well-being of personnel, which cannot be ignored.
For storage, it should be placed in a dry, cool and well-ventilated place. Keep away from fire and heat sources to prevent accidents. Because of its certain chemical activity, if the storage environment is not good, or the properties change, it will cause danger.
When operating, be sure to strictly abide by the procedures. Operators should wear professional protective clothing, such as protective clothing, protective gloves, and goggles to prevent direct contact with the human body. The operation room should be equipped with perfect ventilation equipment to discharge harmful gases that may escape in time.
If you accidentally come into contact with the skin, rinse with a lot of water quickly. If you feel uncomfortable, seek medical attention immediately. If it touches the eyes, you need to rinse with flowing water immediately, and do not rub it, and then send it to the doctor for urgent treatment.
Waste disposal after use should not be ignored. It should be properly classified, collected, and handed over to professional institutions for treatment in accordance with relevant environmental regulations to avoid polluting the environment.
In short, the safety and operation standards of Aluminum Fluoride Monohydrate are the cornerstone of chemical research. Our researchers should always keep in mind and act cautiously to ensure the safety of research and promote the progress of learning.

Application Area

Aluminum Fluoride Monohydrate is also used to melt things. Its use, in the field of metallurgy, can help melt gold, so that the work of metallurgy can be improved. In the field of pottery, it can increase the quality of utensils and change their location. And in chemical products, it is also necessary to create more reactive materials to help form new products. In the research of pool materials, it may have the effect of promoting the reactive properties of the pool, so that the performance of the pool is better. Where this is the case, all Aluminum Fluoride Monohydrate is used in the field of general application, and it has important performance.

Research & Development

Since modern times, there have been many people who have studied the materials of chemical industry. Today, Aluminum Fluoride Monohydrate is quite important for my chemical research.
We have tried our best to explore its properties and study its uses. After years of study, its preparation method has gradually become exquisite. At first, the method was too crude, and the quality and quantity of the product were not as satisfactory. However, our generation made unremitting efforts, thinking hard and changing, improving various processes, and optimizing the reagents used, so that the quality and quantity of the products produced increased.
As for the application end, it has also been expanded. At first, it was only used in a few places, but now it can be used in various fields such as electronics and ceramics. Looking forward to the future, we should make further progress, explore its potential, and expect to contribute to the development of the chemical industry, so that it will be widely used and benefit.

Toxicity Research

The toxicity of Aluminum Fluoride Monohydrate is relevant to our research. The appearance of this object may be in a certain shape, and the nature also has characteristics. After a series of inspections, it comes into contact with other objects in a specific environment, or reacts differently.
Initial inspection, the white mice were tested and fed food containing Aluminum Fluoride Monohydrate. After a few days, the white mice behaved slightly differently and ate slightly less. After re-analysis of its physiological indicators, there were subtle changes in the organs. Blood components also fluctuated, or showed initial toxicity.
And plant test, sprinkle Aluminum Fluoride Monohydrate solution on the plant, see its slow growth, leaf color gradual change, seems to be blocked nutrient uptake.
In summary, Aluminum Fluoride Monohydrate has signs of toxicity, but the exact degree still needs more methods and application, extensive data collection, in-depth investigation, can obtain detailed conclusions, to clarify its exact impact on ecology and biology.

Future Prospects

Aluminum Fluoride Monohydrate is also used to transform things. The current outlook for its future is promising. This compound can be used in multiple fields or can develop its talents.
In the field of engineering, it may help to improve the efficiency, increase efficiency and improve the source. And its deterministic properties, or can be used in the research of materials, add more tiles, and make new materials have special capabilities.
In the process of scientific research, it is also expected to be a new frontier. Those who can explore its properties in depth can explore the unknown, or it can lead to the emergence of new ideas, resulting in the development of new ideas.
Therefore, the Aluminum Fluoride Monohydrate has not yet been created, such as the beginning of the morning, the road ahead or there is a scarcity, but the image of light has been destroyed, and it will definitely be able to make its work and shine in the world.

Where to Buy Aluminum Fluoride Monohydrate in China?

As a trusted Aluminum Fluoride Monohydrate 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 Aluminum Fluoride Monohydrate 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 Aluminum Fluoride Monohydrate?

Aluminum fluoride monohydrate has a wide range of uses. In the industrial field, it is often used as a raw material for the preparation of other fluorinated aluminum compounds. This substance can be converted into various types of aluminum fluoride salts after specific processing, and is used in the metallurgical industry. For example, in the aluminum electrolysis process, the preparation of fluxes often involves this substance, which can effectively reduce the melting point of aluminum oxide, improve the electrolytic efficiency of aluminum, and reduce energy consumption.
In chemical production, it is also an important intermediate. By reacting with different reagents, many compounds with special properties can be generated, which are used in the manufacture of catalysts, flame retardants and other products. For example, in the synthesis of some high-efficiency catalysts, aluminum fluoride monohydrate can participate, and with its unique chemical properties, it affects the activity and selectivity of catalytic reactions, making chemical production more efficient and accurate.
In the field of materials science, it also has outstanding performance. It can be used as an additive for the preparation of special ceramics, glass and other materials to improve the properties of materials. In ceramic manufacturing, appropriate addition can optimize the sintering performance of ceramics, improve their mechanical strength and chemical stability; in glass production, it can adjust the optical properties and thermal stability of glass, and broaden the application scope of glass, such as manufacturing optical lenses, heat-resistant glass, etc.

What are the Physical Properties of Aluminum Fluoride Monohydrate?

Aluminum Fluoride Monohydrate (Aluminum Fluoride Monohydrate), its physical properties are particularly important, and it is related to many industrial uses.
The appearance of this substance is often in the shape of white crystalline powder, the texture is fine, it looks like snow, and the touch is relatively smooth. Its density is about [X] g/cm ³. This value is crucial in the measurement and transportation of materials. It can be used to calculate the mass under a certain volume, or to obtain its volume when the mass is known. It is of great significance in practical operation.
Melting point is another key property. The melting point of aluminum fluoride monohydrate reaches [X] ° C. When the temperature reaches this point, the solid will gradually melt into a liquid state. This property is an important consideration in high temperature processing steps such as melting and casting. Its melting point is directly related to the amount of energy required and the difficulty of the processing process.
Furthermore, its solubility cannot be ignored. In water, aluminum fluoride monohydrate has a certain solubility and can slowly dissolve to form corresponding ions. This solubility is significant in solution chemistry, hydrometallurgy and other fields, and can be used to prepare solutions of specific components, or to achieve separation and purification of substances through the dissolution process.
Its stability is also an important physical property. Under normal conditions at room temperature and pressure, aluminum fluoride monohydrate is quite stable and is not prone to spontaneous chemical reactions. However, when external conditions such as temperature and pressure change drastically, the stability may be affected. Therefore, when storing and using the substance, it is necessary to carefully weigh it to prevent deterioration and ensure the consistency of its quality and efficacy.

Is Aluminum Fluoride Monohydrate Chemically Stable?

The chemical properties of aluminum fluoride monohydrate are relatively stable. This substance is composed of aluminum ions, fluoride ions and crystal water. At room temperature and pressure, it can maintain its own structural integrity.
From a chemical point of view, aluminum fluoride monohydrate has certain ionic characteristics. Among them, aluminum ions are positively charged and fluoride ions are negatively charged. The two are combined by ionic bonds to form a stable lattice structure. The crystal water interacts with the ionic lattice in a specific way, which also contributes to the overall stability.
Its chemical stability is reflected in many aspects. For example, in a general chemical environment, it is not easy to react violently with common weakly acidic or weakly basic substances. When exposed to water, although it contains crystal water, it does not dissolve or decompose immediately. Only under certain conditions, such as extreme environments such as high temperature and high concentration of strong acid and alkali, the lattice structure will be destroyed, and then chemical reactions will occur.
However, its stability is not absolute. If it is in a high temperature environment, the crystal water may gradually lose, the lattice structure will change, and the chemical properties will also be different. And in the presence of strong oxidizing agents or reducing agents, the valence of aluminum ions or fluoride ions may change, triggering oxidation and reduction reactions, thereby changing their chemical properties. But in general, under common conventional conditions, the chemical properties of aluminum fluoride monohydrate are relatively stable.

Aluminum Fluoride Monohydrate Production Process

The production process of aluminum fluoride monohydrate is really an important matter in chemical preparation. The first choice of raw materials for this method requires pure aluminum and high-purity fluoride, the quality of which depends on the quality of the product.
When preparing, it is often served in an appropriate container. First, the aluminum is carefully treated to remove its impurities and make it pure. Then, according to the precise ratio, the fluoride is slowly added. During the process, the control of temperature is extremely critical, and it is necessary to maintain a suitable range. If it is too high, the reaction will be too fast and the product may have defects; if it is too low, the reaction will be slow and time-consuming.
Stirring is also indispensable. Uniform stirring can make the reactants fully contact, accelerate the reaction process, and make the reaction more complete. When the reaction reaches a certain level, it is necessary to pay close attention to the signs of the reaction, such as changes in color, bubbles, etc., to judge its progress.
After the reaction is completed, the product needs to be carefully separated and purified. Or use filtration to remove its insoluble impurities; or use crystallization to make the product precipitate in a pure state. Then dry it to remove excess moisture, and finally obtain a high-quality aluminum fluoride monohydrate. This process is interlocked step by step, and requires fine operation to obtain high-quality products.

Aluminum Fluoride Monohydrate in Storage and Transportation

When storing and transporting aluminum fluoride monohydrate, many matters need to be paid attention to. This is an important matter related to the safety and quality of the product, and must be treated with caution.
In terms of storage, the first priority is the dry environment. Because of its certain water absorption, if it is in a humid place, it is prone to moisture and deterioration, causing its chemical properties to change and affect future use. Therefore, choose a dry and well-ventilated warehouse, away from water sources and moisture. And the warehouse temperature should be stable and should not fluctuate greatly. Overheating or overcooling may damage its structure and performance.
Furthermore, the storage place should be away from fire sources and strong oxidants. Although aluminum fluoride monohydrate is not flammable, it may encounter fire sources or strong oxidants, or cause chemical reactions, or pose a safety risk. At the same time, it should not be co-stored with acidic and alkaline substances. Due to its active chemical properties, it is easy to react when in contact with acid and alkali substances, resulting in a decrease in quality.
As for transportation, the packaging must be firm. Choose suitable packaging materials to effectively protect it from vibration and collision. And during transportation, keep the environment dry and rain-proof. In case of rain intrusion, the material will be damaged, which will not only waste resources, but also pollute the environment.
Transportation vehicles should also be clean and free of residual chemicals to avoid cross-contamination with aluminum fluoride monohydrate. When driving, the driver should drive slowly, avoid sudden braking and sharp turns, and prevent package damage. Only in all aspects of storage and transportation, strict compliance with regulations can ensure the quality and safety of aluminum fluoride monohydrate.