As a leading Sodium Hydrogenfluoride, Granule, 98% supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
Sodium Hydrogenfluoride, Granules, 98% What is the main use
Sodium and 98% hydrogen fluoride particles are widely used in industry. Sodium is also an active metal and is often used as a reducing agent in the field of metallurgy. Because of its strong reductivity, it can extract oxygen from metal compounds and help metal elements precipitate. For the smelting of rare metals such as titanium and zirconium, sodium is indispensable. And in chemical synthesis, sodium also participates in many reactions and is an important raw material for the preparation of special organic compounds.
As for 98% hydrogen fluoride particles, it has a significant position in the chemical industry. First, it is a key raw material for the preparation of fluorine-containing compounds. Hydrogen fluoride is indispensable for the synthesis of many high-performance materials such as fluorine-containing plastics and fluorine-containing rubbers. Due to the characteristics of fluorine, such materials have excellent properties such as corrosion resistance and high temperature resistance, and are widely used in high-end fields such as aerospace and electronics. Second, in the glass etching process, hydrogen fluoride can react with silica, the main component of glass, and precisely etch according to the required pattern to form fine glass products. Third, in the semiconductor industry, hydrogen fluoride is used to clean and etch silicon wafers to ensure the performance and quality of semiconductor devices.
Sodium and 98% hydrogen fluoride particles each play an important role in many fields of modern industry due to their unique chemical properties. They promote the continuous advancement of industrial technology and help the birth of various advanced materials and products.
Sodium Hydrogenfluoride, Granules, 98% What are the storage conditions
Sodium and hydrogen fluoride particles (98%), the storage conditions are related to safety, and it is also an important rule for handling this material. Sodium is active, ignites in contact with water, and even explodes, and easily reacts violently with oxygen and water vapor in the air. Therefore, the storage of sodium is often immersed in kerosene or liquid paraffin to isolate air and water to ensure stability.
And hydrogen fluoride, which is highly corrosive and toxic, is very harmful to the human body and the environment. The storage device must be made of corrosion-resistant materials, such as polytetrafluoroethylene, etc. And it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent heat decomposition or leakage. Because hydrogen fluoride absorbs moisture, it should be avoided in a humid place to avoid deliquescence and damage to the storage container, causing the risk of leakage.
Furthermore, the two should not be stored together. Sodium and hydrogen fluoride meet, or cause a violent chemical reaction, endangering safety. Clear warning signs should be set up in storage places to inform everyone of the danger of such items. It is also necessary to prepare corresponding emergency treatment equipment and protective equipment, such as fire extinguishers, eye washers, gas masks, etc., to prevent accidents. Operators should also be familiar with operating norms and emergency response methods to ensure the safety of storage and use. In this way, sodium and 98% hydrogen fluoride particles must be properly stored to avoid disasters.
Sodium Hydrogenfluoride, Granules, 98% How safe
Sodium is mixed with 98% hydrogen fluoride particles (granular hydrofluoric acid), and its safety is of paramount importance. Sodium is also a metal element, and its chemical properties are extremely active. In contact with water, it reacts violently, releasing hydrogen and generating a lot of heat. This reaction is very likely to cause combustion or even explosion. Hydrofluoric acid, although a weak acid, is extremely corrosive, especially to human skin, eyes, respiratory tract, etc. It can cause serious damage if it is inadvertently touched. If it is inadvertently touched, it can cause severe pain in the light, and in the severe case, it can cause tissue necrosis.
When the two meet, the reaction is complicated and dangerous. Hydrofluoric acid in water or sodium reacts violently to produce hydrogen. Hydrogen is flammable and reaches a certain concentration range in the air. In case of open flame and high heat, it can cause explosion. At the same time, the hydrogen fluoride gas volatilized by hydrofluoric acid is toxic, and it can seriously damage the respiratory mucosa after inhalation, and even cause fatal diseases such as pulmonary edema.
When operating, protective measures must be comprehensive. Operators need professional protective equipment, such as anti-acid and alkali work clothes, acid and alkali gloves, full face masks, etc. The operating environment should be well ventilated and equipped with gas detection devices to monitor the concentration of harmful gases such as hydrogen fluoride in real time. When storing, sodium should be sealed in kerosene or paraffin oil to prevent it from coming into contact with oxygen and moisture in the air; hydrofluoric acid should be stored in special corrosion-resistant containers, and the two should be placed separately, away from fire and heat sources.
The handling process also needs to be careful to avoid container collision and rupture to prevent material leakage. In the event of a leak, emergency treatment must be prompt and appropriate. Sodium leakage should be covered with dry sand for collection; hydrofluoric acid leakage should be neutralized with alkaline substances such as lime, and surrounding personnel should be evacuated to avoid exposure to harmful gases and leaks. In this way, the safety of operation can be maximized and the potential danger can be avoided.
Sodium Hydrogenfluoride, Granules, 98% production process
The production process of sodium and 98% hydrogen fluoride particles is an important matter in the chemical industry. The method prepares high-quality materials. The sodium needs to be pure and free of impurities, and the hydrogen fluoride particles must also reach 98% purity. In a special kettle, the temperature is controlled to the right, and this temperature needs to be accurate, which is related to success or failure. Slowly add sodium into the kettle, and when it encounters with hydrogen fluoride particles, the two will phase, like a blend of yin and yang. In the meantime, closely observe the state of the reaction to prevent excesses or slowness. After the application is completed, the product will be precipitated in an exquisite way, removing its impurities and improving its purity. In this way, what you need can be obtained. The beauty of its craftsmanship depends on the quality of the material, the control of temperature, the observation of the response, and the ingenuity of the analysis.
Sodium Hydrogenfluoride, Granules, 98% Reacts with Other Substances
Sodium (Sodium) and 98% hydrogen fluoride particles (Hydrogen fluoride, Granule, 98%) can undergo many reactions. Sodium is active. When encountering hydrogen fluoride particles, if there is water vapor in the environment, sodium reacts rapidly with water first. Just like the reaction between metal and water in Tiangong Kaiwu, sodium floats on the water surface, swims quickly, and hisses to generate sodium hydroxide and hydrogen gas. This reaction is violent and exothermic.
The generated sodium hydroxide can further react with hydrogen fluoride. Hydrogen fluoride is acidic and can be neutralized with alkali. The two meet, just like the principle of acid-base combination in Tiangong Kaiwu, to generate sodium fluoride and water.
If there is no water vapor environment, sodium has the possibility of reducing hydrogen in hydrogen fluoride, just like the oxidation and reduction changes between substances in the book. Sodium loses electrons and hydrogen gains electrons to form hydrogen and sodium fluoride.
In addition, if there are other impurities in the system or under specific conditions, such as high temperature and catalyst, the reaction may be more complicated. However, although "Tiangong Kaiguo" does not describe such reactions in detail, the principle of changes in the substances described in it can also be inferred. The reaction of sodium and hydrogen fluoride particles, whether violent or mild, follows the basic law of material changes, and presents a variety of reaction scenes under different conditions.