Ammonium fluorotitanate - a multifunctional chemical raw material with high efficiency and environmental protection

Ammonium fluorotitanate is a white crystal that is slightly soluble in water and inorganic acids. As a high-purity analytical reagent and synthetic raw material, it is widely used in many industries. Its unique chemical properties and excellent performance make it play an important role in modern industrial production, especially in the manufacture of titanic acid and titanium metal, the production of ceramic glass and other fields.
Ammonium fluorotitanate has become an important analytical reagent with its high-purity white crystalline form and is widely used in chemical experiments and analysis. As a synthetic raw material, it plays an irreplaceable role in the production process of titanic acid and titanium metal. Titanium metal, as a lightweight and corrosion-resistant metal material, is widely used in aerospace, chemical and medical fields, and ammonium fluorotitanate is one of the key intermediates in the manufacture of titanium metal.
Ammonium fluorotitanate also has a significant application effect in the field of anti-corrosion and cleaning. During use, metals are often exposed to air, moisture or other chemicals, resulting in the formation of oxide layers or accumulation of stains on the surface. Ammonium fluorotitanate can effectively react with oxides on the metal surface, decompose and remove these oxide layers, thereby restoring the original luster of the metal. It has a good removal effect on oxides on common metal materials such as aluminum, steel, and stainless steel, and can quickly and thoroughly clean the metal surface in a short time. In the cleaning process, ammonium fluorotitanate can not only remove pollutants on the metal surface, but also form a protective film to help the metal surface resist erosion from the external environment. This protective film can effectively isolate the contact of moisture, oxygen and other corrosive substances, thereby delaying the process of metal corrosion. Traditional metal cleaning methods often require the use of a variety of chemicals, and may consume a lot of time and manpower during the cleaning process. As an efficient cleaning agent, ammonium fluorotitanate can complete the cleaning of metal surfaces in a shorter time, reducing energy consumption and time costs during the cleaning process.
In the production process of ceramics and glass, ammonium fluorotitanate plays a significant role as one of the important raw materials. In the production process of ceramic materials, ammonium fluorotitanate is mainly used as a raw material additive to help improve the quality of ceramic finished products and the stability of the firing process. Ceramic firing is a very critical process step, which requires precise temperature control to ensure that ceramic products maintain stable physical and chemical properties at high temperatures. Ammonium fluorotitanate plays a very important role in the firing process. Due to its strong thermal stability and high temperature resistance, ammonium fluorotitanate can remain stable within the firing temperature range of ceramics, thereby improving the stability of the entire firing process. Its addition can reduce cracks, deformation or other adverse reactions of ceramics at high temperatures and ensure the quality of the finished product. Ammonium fluorotitanate also improves the physical properties of ceramics. It can increase the density and hardness of ceramics, making ceramic products stronger and more durable. In addition, ammonium fluorotitanate helps to evenly distribute the various components in ceramics, thereby improving the overall mechanical strength and compressive strength of ceramics, making them more wear-resistant and damage-resistant in daily use. In the production process of ceramics, ammonium fluorotitanate can effectively improve the surface quality of ceramics and reduce surface flaws and defects during the firing process. This makes the surface of the final product smoother and the visual effect better, meeting the requirements of modern consumers for aesthetics and quality.
Ammonium fluorotitanate plays a key role in a variety of industries, and also meets the requirements of green chemistry due to its stable chemical properties and low toxicity. In the production process of titanium metal, the use of ammonium fluorotitanate can reduce pollution to the environment and contribute to the sustainable development of industrial production.