This is related to the setting of the ratio of bis- [3- (triethoxysilyl) propyl] -disulfide (50%) and carbon black (50%) in the product. According to the principles of "Tiangong Kaiwu", the proportion of materials needs to be determined by repeated practice and careful consideration. Bis- [3- (triethoxysilyl) propyl] -disulfide, in many products, is often used as a coupling agent. It can improve the interfacial bonding force between inorganic and organic matter, so that the two blend better. Carbon black is a common filler and enhancer, which can improve product strength, wear resistance and conductivity. The ratio of each of the two is set at 50%, which must be considered by many parties. If the proportion of bis- [3- (triethoxysilyl) propyl] -disulfide is too high, although the interface bonding is excellent, the product cost may increase, and some properties may be too strong and unbalanced; if the proportion of carbon black is too high, although the enhancement effect is obvious, the interface compatibility may decrease, resulting in poor overall performance of the product. The ratio of 50% each may be designed to balance the coupling and strengthening effects, so that the product has good interface bonding and strength, wear resistance, etc. In this way, or after countless tests, factors such as raw material cost, product performance requirements, and production process feasibility are considered, and the proportion of all parties is finally taken into account to achieve the optimum state of product performance and efficiency.

Bis- [3- (trimethoxysilyl) propyl] -disulfide (50%) is mixed with carbon black (50%). When the two are mixed, several synergy effects can be initiated in many industrial applications. Bis- [3- (trimethoxysilyl) propyl] -disulfide belongs to the category of silane coupling agents. Within the molecule, there is an alkoxysilyl group that can chemically react with inorganic surfaces (such as silica, etc.) at one end, and an active group (in this case, a disulfide bond) that can react with organic substances (such as polymers such as rubber) at the other end. Carbon black is a key reinforcing filler in the rubber industry, which can significantly improve the strength and wear resistance of rubber. When bis- [3- (trimethoxysilyl) propyl] -disulfide (50%) is mixed with carbon black (50%) in rubber and other polymer materials, the following synergy effect will occur: First, the silane coupling agent can chemically react with the hydroxyl group on the surface of the carbon black through its alkoxy silicon group and other active checking points to form a chemical bond, so that the carbon black is more firmly combined with the rubber matrix, and the dispersion of carbon black in the rubber is improved. In this way, carbon black can be more evenly distributed in the rubber, giving full play to its reinforcing effect, thereby enhancing the tensile strength, tear strength and other mechanical properties of rubber products. Second, the disulfide bond part of the silane coupling agent can participate in the vulcanization reaction of the rubber, changing the structure and crosslinking density of the rubber vulcanization network. Compared with the use of carbon black alone to fill the rubber, when the two are mixed, the crosslinking structure of the rubber vulcanizate is more regular and dense, further improving the heat resistance and aging resistance of the rubber. Third, because the silane coupling agent improves the interfacial bonding between carbon black and rubber, reducing the interfacial friction between the rubber matrix and carbon black, the processing performance of the rubber material will also be improved, such as the smoother mixing process, the fluidity of the rubber compound can be improved, which helps the molding process of rubber products.

In terms of "[3- (trimethoxysilyl) propyl] -dioxide (50%) -carbon black (50%) in the product", its qualitative analysis is based on the characteristics and interaction of the two. First - [3- (trimethoxysilyl) propyl] -dioxide, this compound contains silicon oxide, silicon oxide has high energy, so that it has a certain degree of qualitative. And trimethoxysilyl can be hydrolyzed and reacted under the appropriate parts, and can form a group around, qualitative. Carbon black, a highly dispersed carbon, has a well-defined chemical properties, good weather resistance and chemical corrosion resistance. There are many active groups on the surface of carbon black, which can be used to interact with - [3- (trimethoxysilyl) propyl] -dioxide. Mixing the two, at a ratio of 50%, carbon black can be used as a filling layer, and is dispersed in - [3- (trimethoxysilyl) propyl] -dioxide groups. - [3- (trimethoxysilyl) propyl] -dioxide can wrap carbon black particles, less carbon black particles can gather, and improve dispersibility. Carbon black can increase the mechanical properties of materials, and the interaction between the two forms a fixed quality, which improves the quality of the whole. However, external factors also affect its quality. Such as high temperature environment, - [3- (trimethoxysilyl) propyl] -dioxide or biodegradation, carbon black or oxygen. In the tidal environment, the hydrolysis rate of trimethoxysilyl may change, which affects the quality of the material. However, in the context of normal, stressful, and complex effects, the two products mixed in a ratio of 50% can be characterized to a certain extent.

This product is suitable for many of the following specific application scenarios: In war, it can be the armor of soldiers. Its texture is tough, and it can withstand the attack of swords, guns, swords and halberds, so that soldiers can be protected in dangerous battlefields. The sharp blade of the enemy cuts on it, leaving only shallow marks, which is difficult to break its defense, so that soldiers can fight bravely and fearlessly. During the journey of a merchant, it can be used as protection for bags and packages. Merchants often travel through mountains and rivers and obstacles, and it is unknown that they encounter bandits on the road. Wrap valuable goods with this item, which can prevent the utensils from being damaged when the bad guys snatch it. Even if it is pulled by the snatch, it can also be tough and not broken, protect the goods well, and protect the goods of merchants and goods from damage. In the place where the craftsman works, it can be used as protection for the work equipment. For example, when carpentry builds wood, when the axe is chiseled, this object can protect the handle of the tool from breaking due to frequent impact; blacksmiths hammer iron tools, which can be lined with the side to prevent iron filings from splashing and damaging other utensils, so that the craftsman can concentrate on his skills without the worry of damage to the utensils. In home life, it can be used for door and window protection. It is installed on the doors and windows, and it is difficult for thieves to easily break in. It can also be sturdy as before in the wind and rain, and it can ensure the peace of life of the elderly and young in the family, so that the family can enjoy family happiness without fear of external intrusion. In the storage place, it can be covered outside the valuable materials. Moisture-proof and insect-proof, even if it Grain forage, with this protection, can prevent mildew and moth-eaten; silk brocade, with this protection, can keep the color and luster, without losing its precious value.

Compared with other similar proportions of [3- (triisoxy propyl) propyl] -dioxide and carbon black mixtures, what are the advantages of this product? Let Tingwu take the classical Chinese form of "Tiangong Kaiwu" as your explanation. Fu [3- (triisoxy propyl) propyl] -dioxide and carbon black mixtures are all used in the world. However, this product has considerable advantages compared with others. The first one is its chemical stability. Other things of similar proportions may be easily disturbed by external factors, causing their properties to change. If this product can withstand external disturbances, it can maintain its inherent properties for a long time under ordinary circumstances, and it is not easy to deteriorate. This is an advantage. Furthermore, it is related to its physical characteristics. The flexibility and plasticity of this product are better than others. Others are either hard and difficult to break, or too soft and lack its shape. However, this product can be shaped into various shapes according to the craftsman's intention, and after forming, its structure is stable and not easy to deform. If the device can not only meet different needs, but also ensure the long-term durability of the device, this is the second advantage. Also known as its functionality. In many application scenarios, the effectiveness of this product is even more significant. For example, in some places where good electrical conductivity is required, other similar mixtures may not be sufficient, but this product can transfer electricity such as current, unimpeded, and help the efficient operation of related equipment. And its thermal insulation performance is also good. Where thermal insulation is required, it can resist the transfer of heat and protect other things from heat damage. This is one of the three advantages. As for the convenience of processing, it is also one of its advantages. Other similar things, or complicated processing, require multiple processes, and a little carelessness can cause defects. However, when this product is processed, it can follow the craftsman's method, is easy to operate, saves a lot of trouble, and can also improve the efficiency of production, which is the four advantages. Therefore, compared with other similar proportions of [3- (triisoxy propyl) propyl] -dioxide and carbon black mixtures, this product has many advantages such as chemical stability, excellent physical properties, excellent function and convenient processing. It can stand out in various applications and is used by the world.