What are the main uses of (trimethylmethyl) silicic acid solution? The uses of this liquid are outlined here.
First, it can be used for manufacturing work. In the manufacturing process, (trimethylmethyl) silicic acid solution can be used as a retention aid. It can promote the aggregation of solid particles such as rubber and fillers in the rubber, improve the retention rate, make the rubber shape better, and can speed up the water flow rate, improve the manufacturing efficiency, and improve the physical properties of the rubber, such as the viscosity.
Second, it is also commonly used in the construction field. As the addition of building materials, (trimethylmethyl) silicic acid solution can increase the viscosity of sand, concrete, etc. It can react biochemically and generate a condensable material, improve the integrity and durability of the material, make the building more solid, and can effectively resist rain intrusion and external forces.
Third, it plays an important role in gold anti-corrosion. The gold parts are immersed in (trimethyl) silicic acid solution, or brushed on the surface of the gold, which can form a dense protective film. This protective film can separate the bonding of metal materials such as air and water, and delay the corrosion rate of gold, improve the use of gold materials and their products, and is useful in many industries such as mechanical engineering and shipbuilding.
Fourth, in the washing formula, (trimethyl) silicic acid solution is also an important part. It has the functions of high temperature, water melting, and dispersing dirt. It can maintain the stability of the washing liquid and increase the washing effect; it can combine with gold particles such as water, reduce the hardness of water, and prevent the formation of scale on the surface of clothes or utensils; It can disperse and float dirt particles, avoid re-sinking, and help the washing liquid to better remove dirt.

The physical properties of triethylborane as a blue flame can be particularly investigated. When this agent burns, a blue flame appears, and its color is dull blue, which is pleasing to the eye.
In terms of its flame temperature, although it is not as strong as a common hot topic flame, it is also quite hot, which is enough to supply energy in a specific reaction system and promote the progress of the reaction.
Triethylborane is a highly active liquid substance under normal conditions, which is very easy to react with oxygen in the air, and then ignites into a blue flame. Its volatility is quite strong, and it quickly diffuses in the air. This property increases the area of contact with oxygen, and the combustion reaction is easy to trigger and relatively rapid.
Furthermore, the luminosity of this blue flame is relatively soft, not bright and dazzling, but clearly discernible in the dark. And its combustion products are mostly harmless boron oxides and hydrocarbon oxidation products, which are lighter to the environment than other kinds of combustion products containing heteroelements.
Because of its physical properties, it is often used as an initiator or fuel additive in the field of organic synthesis. With its active nature, it can trigger various reactions; with its combustion characteristics, it can optimize the combustion efficiency of fuels, improve combustion efficiency, reduce pollution and reduce emissions, and is of great value in the chemical and energy industries.

The chemical properties of (Sanxiang methyl) mercury chloride are as follows:
Its color is usually white or light-colored powder or crystalline, and the outer layer is high. In terms of solubility, its solubility in water is low, and it is soluble in ordinary water-based media, but it can be partially soluble, such as ethanol, ether, etc. This property makes (Sanxiang methyl) mercury chloride have specific solubility and dispersion characteristics in the chemical reaction system.
Due to its chemical reaction activity, its mercury molecules have certain resistance, and it is easy to generate reaction molecules or molecules. For example, it can form coordination compounds containing coordination atoms such as sulfur and nitrogen. This reaction is often used in chemical synthesis to build special molecules. In addition, (Sanxiang methyl) mercury chloride will decompose and release mercury vapor and other decomposition compounds when added or encountered with specific catalysts. Special attention should be paid to this process, because mercury vapor is toxic, and it is very harmful to environmental and human health.
In terms of oxidative properties, the mercury element in (Sanxiang methyl) mercury chloride can be oxidized at different oxidizations. In case of oxidation, the oxidation of mercury may increase. On the contrary, in case of primary oxidation, it can be oxidized by low-grade or gold mercury. This oxidative property has important implications in some chemical analysis and environmental processes, such as in the environment, it may cause oxidative reactions to microorganisms, which may affect its existence and migration in the environment.

In the synthesis of (triethylamino) siloxy silane, it is often used in the following aspects:
First, it can be used as a coupling agent. It can build a bridge between inorganic and organic substances, so that the two can be better combined. For example, in the preparation of composite materials, the interface affinity between inorganic and organic substances in the material is not good. After adding this substance, one end can react with the hydroxyl group on the surface of inorganic substances, and the other end can interact with organic substances, thereby enhancing the interfacial bonding force, improving the performance of composite materials, and making the material stronger and more durable.
Second, it plays a significant role in the field of surface modification. It can change the surface properties of materials, such as some materials with poor surface hydrophilicity, which is not conducive to subsequent processing. After using this substance, the material can be given suitable hydrophilicity, or the surface roughness and chemical activity can be changed to meet different application requirements. For example, in some coating materials, surface modification can improve the adhesion and durability of the coating.
Third, it is used to prepare organic-inorganic hybrid materials. With its special structure, the organic components and inorganic components can be cleverly combined to form hybrid materials with the advantages of both. For example, in optical materials, by combining the good processing properties of organic materials and the optical properties of inorganic materials, hybrid optical materials with excellent optical properties, good mechanical properties and easy processing can be prepared. Fourth, it is also used in catalyst support. It can modify the surface of the support, provide a suitable supporting environment for the active component, enhance the interaction between the active component and the support, improve the stability of the catalyst, optimize the activity and selectivity, and play an important role in the catalytic process of some organic synthesis reactions.

The storage conditions of alum sulphur in Jiadi, Sanxiang are quite exquisite. According to the ancient method, when choosing a high dry place, this is because alum sulphur is afraid of water and humidity. If it is in a humid place, it is prone to moisture change and damage its quality. Therefore, the terrain must be high and open, which can make it difficult for moisture to invade.
And it needs to be placed in a shaded place to avoid direct exposure to the hot sun. The sulphur of alum cover stone is strong. In case of strong light and high temperature, it is afraid that its internal composition will change or cause other unexpected changes. The shaded place can keep it in a relatively constant temperature state, so that its characteristics can be maintained stable for a long time.
Furthermore, the storage place should be well ventilated. The circulating air can disperse the turbid gas that may accumulate, and can prevent the abnormal temperature and humidity caused by air occlusion, and avoid the transformation of alum sulphur due to poor environment.
should also be kept away from fire sources. Alum sulphur is flammable, similar to fire, and the disaster will not only destroy itself, but also cause a raging fire and endanger the surrounding area.
To sum up, the storage of alum sulphur in Jiadi, Sanxiang Province needs to be highly dry, shaded, ventilated and away from fire sources, so that it can be properly preserved so that it does not lose its original properties and can be used in other days.