Fluotitanic Acid

Duxiu Chemical

Specifications

HS Code	202681
Name	Fluotitanic Acid
Chemical Formula	H2TiF6
Appearance	Colorless to slightly yellow liquid
Odor	Pungent
Density	Approx. 1.48 g/cm³
Solubility In Water	Highly soluble
Acidity	Strong acid
Boiling Point	Decomposes before boiling
Stability	Stable under normal conditions but reacts with bases
Corrosivity	Corrosive to metals and many materials

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

Packing & Storage

Packing	5 - liter bottle packaging for Fluotitanic Acid, ensuring safe containment.
Storage	Fluotitanic acid should be stored in a cool, well - ventilated area, away from heat and ignition sources. It must be stored in a tightly - sealed, corrosion - resistant container, preferably made of materials like high - density polyethylene or certain grades of stainless steel. Keep it separate from reactive substances such as alkalis to prevent dangerous reactions. Regularly check storage conditions and containers for any signs of degradation or leakage.
Shipping	Fluotitanic acid is shipped in specialized, corrosion - resistant containers. Adequate precautions are taken to prevent leakage. Shipments follow strict hazardous material regulations, ensuring safe transport by land or sea.

Free Quote

Competitive Fluotitanic Acid prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8615371019725 or mail to sales7@bouling-chem.com.

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Tel: +8615371019725

Email: sales7@bouling-chem.com

General Information

Historical Development

"Historical Development of Fluorotitanic Acid Products"
I have heard that everything has its origin, and fluorotitanic acid products are no exception. In the ancient times, chemistry was not developed, and such things were unknown to the world. In recent times, chemistry has become more and more prosperous, and everyone has studied the properties of substances. At first, I only knew a little about the characteristics of titanium and fluorine. After countless talented people painstakingly studied, technology has advanced day by day. Simple substances containing titanium and fluorine can be made first, and then improved to obtain fluorotitanic acid products. When it first came out, it was only used for a few tests. With the passage of time, people know more about its properties, and its uses have become more and more widespread. It has its achievements in metallurgy and materials. It has become an indispensable product today. Looking at its development, it is a sign of the evolution of human wisdom.

Product Overview

Overview of Fluorotitanic Acid Products
Fluorotitanic acid is one of the chemical agents. Its properties are strongly acidic, and it is colorless, transparent or yellowish liquid. It is widely used in various industrial fields.
In the field of metal surface treatment, it can be used as an auxiliary agent for metal pickling, which can effectively remove rust and oxide layers on the metal surface, making the metal surface smooth and conducive to subsequent processing. In the electroplating industry, it is also an important additive, which helps to improve the quality and uniformity of the coating, making the coating more dense and firm.
When preparing, it is often obtained by chemical reaction of specific titanium compounds with hydrofluoric acid. However, due to its corrosive nature, it is necessary to follow safety procedures when using and storing to prevent harm to the human body and the environment. Properly stored in a cool, ventilated place, and away from fire and heat sources. In short, although fluorotitanic acid plays a key role in industrial production, its characteristics also require users to be cautious.

Physical & Chemical Properties

"On the Physical and Chemical Properties of Fluotitanic Acid Products"
Fluotitanic Acid has different physicochemical properties. Its color is clear or light, and when it is liquid, it has good fluidity. It looks like a clear spring. As for its chemical activity, it is easy to react when it encounters alkali, generating new compounds, and under specific temperatures and pressures, it can change its structure, and its properties will also change accordingly.
Its density is moderate, slightly heavier than that of ordinary liquids. When heated, the decomposition state is also regular, and the temperature gradually rises, the molecules are discrete, and a series of chemical changes occur. These are the unique physical and chemical properties of Fluotitanic Acid, which are important in various industrial and scientific research fields and cannot be ignored.

Technical Specifications & Labeling

"Technical Specifications and Labeling of Fluorotitanic Acid Products (Commodity Parameters) "
This fluorotitanic acid product has many technical specifications. First and foremost, the ingredients must be accurate, the content of fluorotitanic acid should be in line with a specific number, and the content of impurities must also be strictly controlled and must not exceed the limit.
Its logo is also heavy. On the packaging, the product name "Fluorotitanic Acid" must be declared, and a clear warning label should be attached to inform users of potential dangers. Commodity parameters should detail key data such as density and purity to make the buyer clear about its quality. In this way, it can meet the technical specifications and labels to ensure the integrity of the product and the safety of the user.

Preparation Method

"The Method of Making Fluorotitanic Acid"
To make fluorotitanic acid, the raw materials and process are the key. Choose pure titanium ore powder and mix it with hydrofluoric acid. The ratio of the two needs to be accurate. Slowly put the titanium ore powder into the hydrofluoric acid and stir it evenly. This is the starting step of the reaction.
When reacting, it is very important to control the temperature, and use a moderate heat to make the two fully react. During this period, close attention must be paid to the reaction state, so as not to make it too aggressive or too slow.
After the reaction is completed, consider purification. Use a fine filtration method to remove impurities to obtain a pure fluorotitanic acid solution. Then evaporate and concentrate to remove excess water, so that the concentration of fluorotitanic acid reaches the standard. In this way, to obtain high-quality fluorotitanic acid products, the preparation process requires rigorous operation and step-by-step refinement.

Chemical Reactions & Modifications

"On the Chemical Reaction and Modification of Fluorotitanic Acid Products"
Fluorotitanic acid has its unique properties and shows a strange appearance in various chemical reactions. Its reaction mechanism is worth exploring. Or combine with other substances, or decompose itself, all of which have special changes.
To improve its properties, the method of modification is very important. The performance of fluorotitanic acid can be optimized by adding additives and adjusting conditions. After modification, its stability can be enhanced, or the reactivity can be improved, and it can play a greater role in many fields of industry. The wonders of its chemical changes and the merits of its modification are actually the focus of joint research between the academic community and the industry, hoping to achieve more breakthroughs and contribute to the chemical industry.

Synonyms & Product Names

"Same Noun and Trade Name of Fluorotitanic Acid"
Fluorotitanic acid is also a chemical substance. Its same name may be called fluorotitanic acid, and there are also those named after its chemical composition. As for the trade names, they vary according to the needs and uses of the city.
The products sold in the city of fluorotitanic acid are named according to their purity, concentration, or their application. There are those with excellent quality, called "high-purity fluorotitanic acid"; there are those with unique uses, such as "fluorotitanic acid for electroplating", indicating that they are used in the electroplating industry.
The same noun and trade name are both signs for identifying and using this thing. Although the names are different, they actually refer to one. Knowing its name and understanding its nature can make good use of fluorotitanic acid in various fields of industry and scientific research, and perform its functions and achieve its benefits.

Safety & Operational Standards

"Code of Safety and Operation of Fluotitanic Acid Products"
Fluotitanic Acid is also a chemical product. Its unique nature is related to safety and operation, and it should not be careless.
In the way of safety, the first priority is to store. It should be placed in a cool and dry place to avoid the invasion of water and fire. The place must be well ventilated to prevent the accumulation of toxic gases. The container must be tightly sealed to prevent leakage. If there is any leakage, quickly leave the crowd and cover your mouth and nose to prevent inhalation of poison. And urgently report it to the person in charge, and deal with it quickly.
As for the rules of operation, the operator must wear protective equipment, such as gloves, masks, protective clothing, etc., to prevent its corrosion. Where the equipment is operated, it is complete and clean. When measuring, keep to the scale and don't be greedy for too many tasks. When stirring, gently and evenly, to prevent splashing and hurting people.
After use, all utensils must be washed and placed in their original place. Waste should not be discarded at will. When following the disposal method, or collecting, or neutralizing, to ensure the safety of the environment.
Everyone should keep in mind that safety is the most important thing, and the operation is in accordance with regulations. In this way, the use of Fluotitanic Acid can be kept safe, and it is beneficial to people and things.

Application Area

"The application field of Fluotitanic Acid Products"
Fluotitanic Acid, its application field is quite wide. In the field of metallurgy, it can help metal surface treatment, make the metal more resistant to corrosion, and the color is also good. The ancient good utensils have been modified by wonderful methods and last for a long time. In the ceramic industry, it can improve the properties of the blank body and glaze surface, and the ceramics fired are exquisite and gorgeous, like ancient kiln treasures. And in the preparation of catalysts, it is also effective, promoting the efficient progress of the reaction, just like a wise man to help everything go smoothly. In addition, in the paint industry, it can increase the adhesion and wear resistance of the paint, so that the coated object is like a strong armor. This Fluotitanic Acid is outstanding in many fields and is truly a treasure in the industry.

Research & Development

A Brief Introduction to the Research and Innovation of Fluorotitanic Acid
Today, there is the industry of fluorotitanic acid, which is related to research and innovation and development, and is actually one end of the chemical industry's top priorities. Its materials are synthesized from titanium sources and fluoride, and it shows its function in many fields.
At the beginning of the research, we should study its chemical properties, explore its application to various things, and seek the best method. Experiments are complicated, analyze data and positive deviations, and hope to obtain accurate craftsmanship.
As for the development, expand its use. For metallurgy, help the purity of metals; for materials, increase its performance. Expansion in many ways to meet the needs of the world. Practitioners are all dedicated, and they can overcome difficulties, so that the industry of fluorotitanic acid can flourish day by day. With unremitting efforts, promote its research and innovation, promote its wide use, in the field of chemical industry, bloom unique brilliance, and contribute to the prosperity of all industries.

Toxicity Research

Study on the toxicity of fluorotitanic acid
Modern chemical development, fluorotitanic acid is a kind of material, for a wide range of industrial use. However, its toxicity cannot be ignored.
Fluorotitanic acid is acidic and contains fluorine and titanium elements. Fluoride is strong in nature, entering the body or damaging bones and nerves. Although titanium is often inert, it has different effects in fluorotitanic acid, or due to chemical changes.
Today's research, mostly animals are used as models, and it is observed that they are affected by fluorotitanic acid. If this agent is ingested or inhaled, animals may experience gastrointestinal discomfort and respiratory stagnation. If it is touched for a long time, there may be lesions in the organs, such as liver and kidney injuries.
Although industrial use is often limited by its leakage, if the operation is not careful, there is still a risk of leakage. Therefore, the industry should be careful, take comprehensive protection, monitor the environment, and avoid toxins to protect themselves. When using fluorotitanic acid, be careful and careful to get both.

Future Prospects

"Future Prospects"
There are now new products of Fluotitanic Acid, and its future prospects are promising. This product is unique, and it is possible to improve the performance of many domains.
Not yet, it may be used in high-tech engineering to improve the performance of electronic devices, such as making crystal computing more efficient and lower power consumption. It is also expected to expand the color of materials in the material field, improve the characteristics of materials, and create new materials that are more reliable and resistant. And in the field of color energy, it may help the breakthrough of new technologies and promote the improvement of energy storage efficiency. Its development path is like a star-studded, and it will definitely be able to make more innovations in the world, and create new products in the next generation.

Where to Buy Fluotitanic Acid in China?

As a trusted Fluotitanic Acid 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 Fluotitanic Acid 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 Fluotitanic Acid?

Fluorotitanic acid is a compound containing fluorine and titanium, and its use is quite extensive. In the field of metallurgy, it is often used as a metal surface treatment agent. It can form a dense protective film on the metal surface and enhance the corrosion resistance of metals. For example, after iron, aluminum and other metals are treated with fluorotitanic acid, they can maintain a good state in the atmosphere and many corrosive media for a long time, and are not easy to rust and corrode. It is like putting a strong armor on the metal. In chemical production, fluorotitanic acid can be used as a catalyst. In some organic synthesis reactions, it can significantly accelerate the reaction rate and reduce the conditions required for the reaction. It is like a helmsman leading the reaction, helping the reaction move forward smoothly, improving production efficiency, and reducing energy consumption and production costs. In the electronics industry, it also has important applications. In the manufacturing process of semiconductor materials, fluorotitanic acid can participate in specific etching processes to precisely remove unnecessary materials on semiconductor wafers and shape fine circuit structures, laying the foundation for the miniaturization and high performance of electronic devices, just like a skilled craftsman carefully crafted. In addition, in the ceramic industry, fluorotitanic acid can be used as a flux. It can reduce the firing temperature of ceramics, make the ceramic body easier to sinter, and improve the texture and luster of ceramics, giving ceramics a more exquisite appearance and excellent quality, and making ceramic products glow with unique charm.

What are the Physical and Chemical Properties of Fluotitanic Acid

Fluorotitanic acid is a compound containing fluorine and titanium. Its physical and chemical properties are particularly important. In terms of its properties, it is often colorless to slightly yellow liquid, which is quite clear. Looking at its solubility, it is very soluble in water, which makes it effective in the reaction of many aqueous solution systems. In terms of chemical properties, it is acidic. It can neutralize with alkali substances, just like acid and base meet, raw salt and water. Its acidity is stronger than that of ordinary weak acids, and it can be used as an excellent acidic medium in some reactions that require a moderately acidic environment. Fluorotitanic acid also has certain oxidizing properties. Under certain conditions, the oxidation state of the reacting substance can be increased. This property is crucial in some chemical processes involving redox. And because of its fluorine and titanium elements, it has unique uses in the fields of materials science. Its chemical properties can help to form specific compounds or materials. For example, when preparing special coatings or composites containing titanium, fluorotitanic acid can guide the reaction in the desired direction with its unique chemical activity, so that the resulting material has special physical and chemical properties.

What is the Production Method of Fluotitanic Acid?

The method of making fluorotitanic acid is very delicate. The important ones are to take the ore of titanium, or rutile, etc., and crush it and grind it into a fine powder. The next time you cook it with sulfuric acid, when you cook it for a long time, the titanium stone and the acid phase, titanium into the liquid, into the genus of titanium sulfate. and this liquid is cold, filtered to remove its residue, to obtain a clear liquid. Then add fluoride, such as the flow of hydrofluoric acid, slowly stir it. Fluoride ions combine with titanium ions to form fluorotitanic acid. However, hydrofluoric acid is strong and poisonous, and when you operate it, you must be careful. Or there is another way, start with titanium tetrachloride. Titanium tetrachloride meets water and becomes titanium hydroxide and hydrogen chloride. After removing its hydrogen chloride, it is also treated with hydrofluoric acid, and fluorotitanic acid can also be obtained. These two methods each have their own strengths and weaknesses. The former method starts with ore, which has a wide source and a flat price. However, there are many impurities and it needs to be refined. The latter method starts with titanium tetrachloride, which is pure and simple in quality and workmanship. However, titanium tetrachloride is rare and expensive. It is always a good strategy to choose one based on the simplicity of the work, the purity of the material, the amount of expense, and the degree.

Precautions for Fluotitanic Acids in Storage and Transportation

Fluorotitanic acid is also a chemical with strong acidic and corrosive properties. When storing and transporting, all matters must be taken with caution. When storing, choose the first heavy container. Special corrosion-resistant containers should be used, such as plastics or specific alloy materials. Fluorotitanic acid is prone to chemical reactions with common metals, causing damage to the container and acid leakage. And the storage place must be cool, dry and well ventilated. Avoid direct sunlight to prevent its properties from changing due to rising temperatures. Do not mix with alkalis, oxidants, etc., to prevent severe reactions from causing disasters. When transporting, make sure that the packaging is strict. Loading and unloading vehicles should be handled with care, avoid falling and shaking, and avoid packaging damage. Transportation vehicles need to be prepared with emergency materials, such as adsorbents, neutralizers, etc., in case of leakage. Transportation personnel should also be familiar with the characteristics of fluorotitanic acid and emergency methods, and can respond quickly and properly in case of emergencies. And the transportation route planning should avoid sensitive areas such as densely populated and water sources to reduce potential hazards. In this way, the safety of storage and transportation should be guaranteed, and the risk of accidents should be avoided.

Effects of Fluotitanic Acids on the Environment and Human Health

Fluotitanic acid is also known as fluotitanic acid. This acid is highly corrosive and has a significant impact on both the environment and human health. At the environmental end, if fluorotitanic acid accidentally leaks into the soil, it can cause soil acidification, destroy the acid-base balance of the soil, reduce soil fertility, and hinder the growth of many plants. And the fluoride, titanium and other elements it contains may accumulate in the soil, affecting the community structure and function of soil microorganisms, disrupting the material cycle and energy flow of the ecosystem. If it flows into the water body, fluoride ions will harm aquatic organisms, affect their growth, reproduction, and even cause their death, and destroy the aquatic ecological balance. Fluorotitanic acid volatilizes in the atmosphere, forming acidic aerosols, which will aggravate the harm of acid rain, erode buildings, monuments, and affect vegetation. As for human health, if the human body is accidentally exposed to fluorotitanic acid, due to its corrosive nature, it can cause skin burns, ulceration, contact with the eyes, especially injury, or visual impairment, or even blindness. If inhaled, its volatile mist will irritate the respiratory tract, causing symptoms such as cough, asthma, breathing difficulties, etc. Long-term inhalation may damage lung function and increase the risk of respiratory diseases. If ingested by mistake, it will corrode the digestive tract, causing severe pain, vomiting, diarrhea, and life-threatening in severe cases. Therefore, during the production, storage, transportation, and use of fluorotitanic acid, it is necessary to adhere to safety regulations and take protective measures to prevent it from causing disasters to the environment and human health.