hesheng chemical
PRODUCTS
Epoxy Silane Oligomer
hesheng chemical
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HS Code |
451144 |
| Chemical Structure | Combination of epoxy and silane groups |
| Appearance | Typically a clear to slightly yellowish liquid |
| Viscosity | Varies based on molecular weight, usually in the range of low - medium viscosity |
| Solubility | Soluble in many organic solvents like ethanol, toluene |
| Boiling Point | Relatively high due to its oligomeric nature |
| Melting Point | Lower than that of high - molecular - weight polymers, often in a soft - solid or semi - liquid state at room temperature |
| Reactivity | Reactive towards compounds with active hydrogens (amines, alcohols), can participate in cross - linking reactions |
| Adhesion | Excellent adhesion to various substrates including metals, glass, and some plastics |
| Thermal Stability | Good thermal stability up to a certain temperature, can withstand moderate heat |
| Mechanical Properties | Provides good mechanical strength when cured, can enhance toughness of the matrix |
As an accredited Epoxy Silane Oligomer factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
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Competitive Epoxy Silane Oligomer prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365036030 or mail to info@alchemist-chem.com.
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Tel: +8615365036030
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Historical Development
The taste of chemical products is changing with each passing day, and the Epoxy Silane Oligomer is also a show among them. Tracing back to its origin, at the beginning, everyone did not know its nature, and the road of exploration was difficult step by step. However, the sages of chemical industry did not give up studying. At the beginning of a small success, they found that it has the ability to bond and protect. With the passage of time, the technology has become more and more mature and its application has become wider. From the bonding of utensils to the protection of materials, it has its own shadow. In the past, it was only known to the minority, but now it has been widely used in all industries. Its development process is like the stars gradually shining, from the end of the micro to the world, adding a touch of brilliance to the field of chemical industry, and also showing the unremitting spirit of human exploration and innovation.
Product Overview
"Product Overview of Epoxy Silane Oligomers"
Epoxy silane oligomers are an important product in the chemical industry. Their unique properties combine the strengths of both epoxy and silane. Looking at their structure, epoxy groups endow them with good reactivity, can cross-link with many substances, strengthen cohesion and bonding power. Silane groups make them have excellent weather resistance, water resistance and chemical stability.
This product is widely used in the coating industry, which can greatly improve the wear resistance and corrosion resistance of coatings; in the manufacture of composites, in order to enhance the interface between fibers and substrates, optimize the overall performance of materials. Its preparation process has also been carefully researched to ensure uniform and stable quality. Oxysilane oligomers, with their characteristics and effectiveness, are gradually playing an important role in various fields of chemical industry, adding to the development of industry.
Epoxy silane oligomers are an important product in the chemical industry. Their unique properties combine the strengths of both epoxy and silane. Looking at their structure, epoxy groups endow them with good reactivity, can cross-link with many substances, strengthen cohesion and bonding power. Silane groups make them have excellent weather resistance, water resistance and chemical stability.
This product is widely used in the coating industry, which can greatly improve the wear resistance and corrosion resistance of coatings; in the manufacture of composites, in order to enhance the interface between fibers and substrates, optimize the overall performance of materials. Its preparation process has also been carefully researched to ensure uniform and stable quality. Oxysilane oligomers, with their characteristics and effectiveness, are gradually playing an important role in various fields of chemical industry, adding to the development of industry.
Physical & Chemical Properties
Today there is a product called Epoxy Silane Oligomer, whose physical and chemical properties are particularly important. Looking at its state, it may be in a liquid state at room temperature, with a uniform and transparent texture, like a clear spring, and good fluidity. Its chemical activity is also unusual, containing epoxy groups and silane groups, which give it unique reactivity. Epoxy groups can react with many active hydrogen-containing substances to form a strong cross-linking structure, such as combining with amines, making the material have strong bonding force. Silane groups can form a stable connection at the material interface by affinity with the surface of inorganic substances. This property makes it suitable for use in the field of materials science, or for coatings to increase the wear resistance and corrosion resistance of materials; or for the preparation of composite materials, where strong matrix and reinforced phase are combined, making it a widely used product.
Technical Specifications & Labeling
"Technical Specifications and Labeling (Product Parameters) of Epoxy Silane Oligomer"
Epoxy Silane Oligomer is the chemical product I have studied. Its technical specifications are related to the fundamental characteristics of this product. The molecular structure must be accurate to ensure its chemical stability. Its purity should reach a very high standard, and the impurity content should be minimal, so as not to affect its application effect.
As for the label, the name of the product should be "Epoxy Silane Oligomer", and the product parameters should be clearly attached. Key data such as molecular weight, density, and reactivity should be accurately identified. This is not only to comply with industry norms, but also to provide users with accurate information, so that they can use this product rationally, give full play to its maximum effectiveness, and achieve extraordinary success in the chemical industry.
Epoxy Silane Oligomer is the chemical product I have studied. Its technical specifications are related to the fundamental characteristics of this product. The molecular structure must be accurate to ensure its chemical stability. Its purity should reach a very high standard, and the impurity content should be minimal, so as not to affect its application effect.
As for the label, the name of the product should be "Epoxy Silane Oligomer", and the product parameters should be clearly attached. Key data such as molecular weight, density, and reactivity should be accurately identified. This is not only to comply with industry norms, but also to provide users with accurate information, so that they can use this product rationally, give full play to its maximum effectiveness, and achieve extraordinary success in the chemical industry.
Preparation Method
The raw materials and production process of this Epoxy Silane Oligomer are the key. The raw materials are selected from high-quality materials, such as epoxy materials, with silane and the like, in an appropriate proportion. In the production process, the reaction steps are rigorous and orderly. First, the raw materials are placed in a special device in proportion, and the appropriate temperature and pressure are controlled. During this time, the catalytic mechanism is indispensable. The appropriate catalyst is selected to promote its efficient reaction. During the reaction, closely monitor it and fine-tune the conditions according to its changes. In this way, through exquisite craftsmanship, the Epoxy Silane Oligomer is prepared with high quality and outstanding performance to meet the needs of all parties.
Chemical Reactions & Modifications
In recent years, Epoxy Silane Oligomer has been studied, and there have been many investigations into the chemical reaction and property change. It should also be made by various methods, such as hydrolysis and condensation, cross-linking between molecules, forming a network structure, with different properties. The change of its properties can vary depending on the conditions, and the temperature, solvent, and catalytic agent are all important factors. The heating up promotes the stress rate, the specific solvent helps to disperse uniformly, the catalytic agent reduces the energy barrier, and the effect of adding the reaction. Through the method of change and adjustment conditions, the Epoxy Silane Oligomer with excellent properties is obtained, with good strength, resistance and adhesion. It is hoped that it will be widely used in the material field and open up a new way.
Synonyms & Product Names
环氧硅烷低聚物,此物于化工之域颇为紧要。其名有诸多别称,或曰硅氧烷环氧低聚物,又或谓环氧硅氧低聚物。此等别称,皆指同一物也。
环氧硅烷低聚物具特异之性,于诸多行业应用广泛。于建筑材料之中,可增材料之粘结力与耐久性;于涂料领域,能提升涂层之耐候性与抗腐蚀性。其以独特之化学结构,展现非凡之功效。
是以,虽称谓不同,然所指皆此环氧硅烷低聚物,于工业之发展,实有不可忽视之作用,为各行业之进步,添砖加瓦,贡献殊伟。
环氧硅烷低聚物具特异之性,于诸多行业应用广泛。于建筑材料之中,可增材料之粘结力与耐久性;于涂料领域,能提升涂层之耐候性与抗腐蚀性。其以独特之化学结构,展现非凡之功效。
是以,虽称谓不同,然所指皆此环氧硅烷低聚物,于工业之发展,实有不可忽视之作用,为各行业之进步,添砖加瓦,贡献殊伟。
Safety & Operational Standards
Epoxy Silane Oligomer 产品安全与操作规范
Epoxy Silane Oligomer 者,化产之属也。欲明其安全与操作规范,必详加考辨。
#一、存储之规
Epoxy Silane Oligomer 宜置于阴凉、干燥且通风良善之所。避明火、高热,盖此物遇火易燃,危殆至极。其容器须密封,以防湿气侵入,致品质变异。若存储温度过高,或引聚合反应,损其性能。
#二、操作之要
操作之时,务着适宜防护之具。如防护眼镜,可御其溅入双目,免致眼疾;手套宜选耐化学腐蚀者,保手部肌肤。操作间通风不可忽,使挥发之气得以及时排散,免聚于室,害及人身。调配之际,依特定比例,徐徐混融,切不可急,以防反应过速,生意外之变。
#三、应急之策
若不慎触及皮肤,速以大量清水冲洗,继以肥皂洗净。若入眼内,立用清水缓冲十五分有余,且速求医。如遇火灾,当用干粉、二氧化碳灭火器扑救,勿用水,因其不溶于水,水之浇淋,或助火势蔓延。
Epoxy Silane Oligomer 虽于工业多有裨益,然其安全与操作规范,万不可轻忽。遵此规,方可保作业之安,产品之质。
Epoxy Silane Oligomer 者,化产之属也。欲明其安全与操作规范,必详加考辨。
#一、存储之规
Epoxy Silane Oligomer 宜置于阴凉、干燥且通风良善之所。避明火、高热,盖此物遇火易燃,危殆至极。其容器须密封,以防湿气侵入,致品质变异。若存储温度过高,或引聚合反应,损其性能。
#二、操作之要
操作之时,务着适宜防护之具。如防护眼镜,可御其溅入双目,免致眼疾;手套宜选耐化学腐蚀者,保手部肌肤。操作间通风不可忽,使挥发之气得以及时排散,免聚于室,害及人身。调配之际,依特定比例,徐徐混融,切不可急,以防反应过速,生意外之变。
#三、应急之策
若不慎触及皮肤,速以大量清水冲洗,继以肥皂洗净。若入眼内,立用清水缓冲十五分有余,且速求医。如遇火灾,当用干粉、二氧化碳灭火器扑救,勿用水,因其不溶于水,水之浇淋,或助火势蔓延。
Epoxy Silane Oligomer 虽于工业多有裨益,然其安全与操作规范,万不可轻忽。遵此规,方可保作业之安,产品之质。
Application Area
Epoxy Silane Oligomer is a wonder of chemistry. Its application field is broad and profound. In the field of material repair, it can strengthen the material and make the rotten wood strong again. If the ancient beams and columns are treated with this treatment, the years can be extended. In the world of protective coatings, it can become a tough barrier, which can withstand wind and rain erosion, and keep the utensils as new for a long time. It is also used in electronic packaging to stabilize components, protect them from external interference, and ensure smooth circuits. And in biomedicine, it can assist in drug loading, precise delivery, and healing diseases. This Epoxy Silane Oligomer, with its unique nature, is widely used in various application fields. It is actually a treasure of chemistry, adding brilliance to many industries and making remarkable achievements.
Research & Development
In recent years, I have had some experience in the research of Epoxy Silane Oligomer. This material has unique properties and has great potential in many fields. At the beginning of the study, its structure and characteristics took a lot of thought, but after repeated experiments, studying ancient books, and seeking advice from Fang family, I gradually realized.
I look at its molecular structure. The epoxy group is cleverly connected to the silane group, giving it excellent adhesion and chemical stability. After many experiments and improvements, the synthesis process is optimized to improve the yield and purity. It also explores its performance in different environments, such as temperature, humidity, pH and other factors affecting its properties.
Today, Epoxy Silane Oligomer has achieved results, making its mark in material bonding, protective coatings, etc. However, for long-term development, it is still necessary to forge ahead, expand the application field, improve product quality, and achieve a good environment.
I look at its molecular structure. The epoxy group is cleverly connected to the silane group, giving it excellent adhesion and chemical stability. After many experiments and improvements, the synthesis process is optimized to improve the yield and purity. It also explores its performance in different environments, such as temperature, humidity, pH and other factors affecting its properties.
Today, Epoxy Silane Oligomer has achieved results, making its mark in material bonding, protective coatings, etc. However, for long-term development, it is still necessary to forge ahead, expand the application field, improve product quality, and achieve a good environment.
Toxicity Research
The toxicity of Epoxy Silane Oligomer. The good and evil of chemical substances, its nature, is related to the well-being of all people, must not be ignored.
Epoxy Silane Oligomer has many applications in chemical fields. However, the study of its toxicity cannot be ignored. After repeated tests, it is observed that it interacts with organisms. There are concerns about its entry into the body, or through respiration, or through the skin.
Although it is under normal conditions, it seems to be harmless. However, if exposed for a long time, or in high concentrations, its toxicity gradually becomes apparent. It can cause skin discomfort, and even damage the viscera. Such as the respiration of the lungs and the metabolism of the liver, are disturbed by it. Therefore, when using this item, it is necessary to take all measures to prevent it from harming Weimeng and ensure the safety of everyone.
Epoxy Silane Oligomer has many applications in chemical fields. However, the study of its toxicity cannot be ignored. After repeated tests, it is observed that it interacts with organisms. There are concerns about its entry into the body, or through respiration, or through the skin.
Although it is under normal conditions, it seems to be harmless. However, if exposed for a long time, or in high concentrations, its toxicity gradually becomes apparent. It can cause skin discomfort, and even damage the viscera. Such as the respiration of the lungs and the metabolism of the liver, are disturbed by it. Therefore, when using this item, it is necessary to take all measures to prevent it from harming Weimeng and ensure the safety of everyone.
Future Prospects
Looking at the Epoxy Silane Oligomer, today's researchers have observed its properties and hoped to expand its use. In the future development, there are many things to be expected.
First, in the field of materials, it may be able to increase the toughness of materials, strengthen its corrosion resistance, make materials stronger and longer, and be widely used in engineering and building. Second, in the way of medical equipment, with its characteristics, it may be able to help the progress of medical equipment, such as making exquisite tools, which is conducive to healing diseases. Third, in the world of electricity, or for new materials, to promote the spirit and efficiency of devices, and to help electrical science leap.
Our researchers should do their best to explore its secrets, hoping that Epoxy Silane Oligomer will shine in the future, contribute to the progress of the world and the well-being of the people, create endless possibilities, and expand the magnificent scenery.
First, in the field of materials, it may be able to increase the toughness of materials, strengthen its corrosion resistance, make materials stronger and longer, and be widely used in engineering and building. Second, in the way of medical equipment, with its characteristics, it may be able to help the progress of medical equipment, such as making exquisite tools, which is conducive to healing diseases. Third, in the world of electricity, or for new materials, to promote the spirit and efficiency of devices, and to help electrical science leap.
Our researchers should do their best to explore its secrets, hoping that Epoxy Silane Oligomer will shine in the future, contribute to the progress of the world and the well-being of the people, create endless possibilities, and expand the magnificent scenery.
Where to Buy Epoxy Silane Oligomer in China?
As a trusted Epoxy Silane Oligomer manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading Epoxy Silane Oligomer 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 application fields of oxide silane oligomers
Oligomers of epoxy compounds have a wide range of main application fields. In the field of materials science, one can be used to prepare high-performance composites. This composite material is often used in the aerospace field. Because the composite material made of epoxy compound oligomers has the characteristics of high strength, low density and good corrosion resistance, it can make the structure of aircraft lighter and stronger, and improve flight performance. Such as ancient good materials, it is the essence of utensils, and this oligomer is also a key element in aviation materials.
Second, in the coating industry, epoxy compound oligomers are widely used. Because of their good adhesion and chemical resistance, they are often used to make high-quality coatings. Such as the ancient lacquer art, which seeks the firmness of the paint and the durability of the color, today's epoxy oligomer coatings also have these characteristics. They can be applied to the surface of various substrates such as metal and wood to protect and beautify them. They are widely used in construction, automotive and other industries to make the utensils last forever.
Furthermore, in the field of adhesives, epoxy oligomers also play an important role. The structure formed after curing has high strength and stability, which can effectively bond various materials. Such as the ancient tenon and mortise combination, with exquisite skills to stabilize the utensils, epoxy oligomer adhesives are also strongly bonded, so that different materials are closely connected, used in electronics, machinery and many other industries to ensure the stable connection of components and the normal operation of equipment.
And in terms of electronic packaging materials, it is also indispensable. Because of its good electrical insulation, thermal stability and chemical stability, it can effectively protect electronic components and prolong their service life. Such as the ancient box of treasures, the box is strong and the treasure is intact. Epoxy oligomers are the boxes of electronic components and have made great contributions to the electronics industry.
Second, in the coating industry, epoxy compound oligomers are widely used. Because of their good adhesion and chemical resistance, they are often used to make high-quality coatings. Such as the ancient lacquer art, which seeks the firmness of the paint and the durability of the color, today's epoxy oligomer coatings also have these characteristics. They can be applied to the surface of various substrates such as metal and wood to protect and beautify them. They are widely used in construction, automotive and other industries to make the utensils last forever.
Furthermore, in the field of adhesives, epoxy oligomers also play an important role. The structure formed after curing has high strength and stability, which can effectively bond various materials. Such as the ancient tenon and mortise combination, with exquisite skills to stabilize the utensils, epoxy oligomer adhesives are also strongly bonded, so that different materials are closely connected, used in electronics, machinery and many other industries to ensure the stable connection of components and the normal operation of equipment.
And in terms of electronic packaging materials, it is also indispensable. Because of its good electrical insulation, thermal stability and chemical stability, it can effectively protect electronic components and prolong their service life. Such as the ancient box of treasures, the box is strong and the treasure is intact. Epoxy oligomers are the boxes of electronic components and have made great contributions to the electronics industry.
What are the characteristics of epoxy silane oligomers?
Epoxy compounds are an important class of organic compounds, and their molecules contain epoxy groups, which give them unique properties. The performance characteristics of epoxy compounds are as follows:
1. ** High reactivity **: The epoxy group has a three-membered ring structure and has a large ring tension, resulting in high chemical activity. Under suitable conditions, it is easy to undergo ring-opening addition reactions with compounds containing active hydrogen, such as alcohols, amines, carboxylic acids, etc., to form a variety of functional products. This property makes epoxy compounds the key raw materials for the preparation of epoxy resins, surfactants, pharmaceutical intermediates, etc.
2. ** Good adhesion **: Because it can react with active groups on the surface of a variety of materials, it shows good adhesion properties to metals, glass, ceramics and other materials. Epoxy resins, as a common adhesive, are widely used in industrial production, construction, electronics and other fields, and rely on this adhesion property.
3. ** Excellent chemical stability **: Epoxy compounds have good chemical stability and are resistant to acid, alkali and organic solvents. This property makes the materials made from them stable in harsh chemical environments. For example, epoxy resin coatings are often used to protect metal surfaces and resist chemical corrosion.
4. ** Good insulation properties **: Most epoxy compounds have good electrical insulation properties, low tangent of dielectric constant and dielectric loss angle. Therefore, in the field of electronics and electrical appliances, epoxy resins are often used as insulating materials, such as potting materials, encapsulating materials and printed circuit board substrates, etc., to ensure the normal operation of electronic components.
5. ** Easy processing and molding **: By selecting suitable curing agents and curing conditions, epoxy compounds can be cured and formed at lower temperatures and pressures, and the curing process shrinkage rate is small, and the dimensional stability is good. This is convenient for processing and manufacturing products with complex shapes, and has obvious advantages in composite material preparation, mold manufacturing and other fields.
1. ** High reactivity **: The epoxy group has a three-membered ring structure and has a large ring tension, resulting in high chemical activity. Under suitable conditions, it is easy to undergo ring-opening addition reactions with compounds containing active hydrogen, such as alcohols, amines, carboxylic acids, etc., to form a variety of functional products. This property makes epoxy compounds the key raw materials for the preparation of epoxy resins, surfactants, pharmaceutical intermediates, etc.
2. ** Good adhesion **: Because it can react with active groups on the surface of a variety of materials, it shows good adhesion properties to metals, glass, ceramics and other materials. Epoxy resins, as a common adhesive, are widely used in industrial production, construction, electronics and other fields, and rely on this adhesion property.
3. ** Excellent chemical stability **: Epoxy compounds have good chemical stability and are resistant to acid, alkali and organic solvents. This property makes the materials made from them stable in harsh chemical environments. For example, epoxy resin coatings are often used to protect metal surfaces and resist chemical corrosion.
4. ** Good insulation properties **: Most epoxy compounds have good electrical insulation properties, low tangent of dielectric constant and dielectric loss angle. Therefore, in the field of electronics and electrical appliances, epoxy resins are often used as insulating materials, such as potting materials, encapsulating materials and printed circuit board substrates, etc., to ensure the normal operation of electronic components.
5. ** Easy processing and molding **: By selecting suitable curing agents and curing conditions, epoxy compounds can be cured and formed at lower temperatures and pressures, and the curing process shrinkage rate is small, and the dimensional stability is good. This is convenient for processing and manufacturing products with complex shapes, and has obvious advantages in composite material preparation, mold manufacturing and other fields.
What are the advantages of epoxy silane oligomers compared to other similar products?
Compared with other similar products, epoxidized cashew phenol oligomers have the following advantages:
One, it has a unique chemical structure. Epoxidized cashew phenol oligomers are derived from cashew phenol, which is a natural phenolic compound containing long-chain unsaturated alkyl groups. After epoxidization, a unique molecular structure is formed. This structure gives it excellent flexibility and processability, which can match or even exceed traditional epoxy resins in many application scenarios. For example, in the preparation of composite materials, the material can have good mechanical properties and processing formability, while traditional epoxy resins may be difficult to form due to brittleness.
Both, good chemical corrosion resistance. With its special chemical structure, epoxidized cashew phenol oligomers exhibit excellent resistance to acids, alkalis and organic solvents. In the field of chemical anticorrosion, the protective performance of coatings or materials made of this oligomer can far exceed that of some ordinary anticorrosive materials, prolong the service life of equipment and reduce maintenance costs.
Three, green and environmentally friendly characteristics. Cashew phenol is derived from natural cashew shell liquid and can be recycled, making epoxidized cashew phenol oligomers more green and environmentally friendly than petroleum-based similar products. In the current situation of stricter environmental protection requirements, in the paint, adhesive and other industries, its environmental protection advantages are significant, which is in line with the concept of sustainable development. Many projects and products with high environmental protection requirements prefer this as a raw material.
Four, good compatibility with a variety of materials. Whether it is inorganic fillers or organic polymers, epoxidized cashew phenol oligomers can be well compatible with it. In the coating formula, it can be effectively mixed with various pigments, additives, etc., to improve the overall performance of the coating; in the composite material, it is closely combined with the matrix material such as reinforcing fibers to enhance the interfacial adhesion between materials and improve the comprehensive performance of the composite material.
One, it has a unique chemical structure. Epoxidized cashew phenol oligomers are derived from cashew phenol, which is a natural phenolic compound containing long-chain unsaturated alkyl groups. After epoxidization, a unique molecular structure is formed. This structure gives it excellent flexibility and processability, which can match or even exceed traditional epoxy resins in many application scenarios. For example, in the preparation of composite materials, the material can have good mechanical properties and processing formability, while traditional epoxy resins may be difficult to form due to brittleness.
Both, good chemical corrosion resistance. With its special chemical structure, epoxidized cashew phenol oligomers exhibit excellent resistance to acids, alkalis and organic solvents. In the field of chemical anticorrosion, the protective performance of coatings or materials made of this oligomer can far exceed that of some ordinary anticorrosive materials, prolong the service life of equipment and reduce maintenance costs.
Three, green and environmentally friendly characteristics. Cashew phenol is derived from natural cashew shell liquid and can be recycled, making epoxidized cashew phenol oligomers more green and environmentally friendly than petroleum-based similar products. In the current situation of stricter environmental protection requirements, in the paint, adhesive and other industries, its environmental protection advantages are significant, which is in line with the concept of sustainable development. Many projects and products with high environmental protection requirements prefer this as a raw material.
Four, good compatibility with a variety of materials. Whether it is inorganic fillers or organic polymers, epoxidized cashew phenol oligomers can be well compatible with it. In the coating formula, it can be effectively mixed with various pigments, additives, etc., to improve the overall performance of the coating; in the composite material, it is closely combined with the matrix material such as reinforcing fibers to enhance the interfacial adhesion between materials and improve the comprehensive performance of the composite material.
Is the production process of oxide silane oligomers complicated?
The production process of epoxidized polybutadiene is not simple. Epoxidized polybutadiene is the introduction of epoxy groups into the molecular structure of polybutadiene. This process is complex and requires fine control.
To make epoxidized polybutadiene, the first choice of raw materials. The quality, molecular weight distribution and microstructure of polybutadiene have a profound impact on the performance of the final product. The basis for success is to choose high-quality polybutadiene.
As for the epoxidation method, the peroxy acid method and the halogen alcohol method are commonly used. In the peroxy acid method, the peroxy acid reacts with the double bond of polybutadiene to form an epoxy group. However, the preparation, stability and control of reaction conditions of peroxy acid are all challenges. The reaction temperature, time, peroxy acid concentration, etc., are slightly different, and the epoxy degree and properties of the product will be affected. Although the principle of the halogen-alcohol method is clear, the halogen agent and polybutadiene double bond are first reacted to obtain the halogen alcohol intermediate, and then cyclized to obtain the cyclic oxidation product. However, the halogenation process is prone to side reactions, and the subsequent treatment is cumbersome. It is necessary to remove halide impurities to maintain the purity of the product.
In addition, the reaction equipment and environment are also critical. A suitable reactor needs to be able to control temperature, pressure and provide good mass and heat transfer conditions. The pH of the reaction system and the choice of solvent are all related to the reaction process and product quality.
Operators also need skilled skills and rich experience. From the ratio of raw materials, the supervision of the reaction process, to the analysis and processing of the product, it all depends on human beings. A little carelessness may cause the product performance to fail to meet expectations.
To sum up, the production process of epoxidized polybutadiene is complicated, and all links are closely interlocked. It is necessary to carefully control the raw materials, methods, equipment, personnel and other aspects to obtain the ideal product.
To make epoxidized polybutadiene, the first choice of raw materials. The quality, molecular weight distribution and microstructure of polybutadiene have a profound impact on the performance of the final product. The basis for success is to choose high-quality polybutadiene.
As for the epoxidation method, the peroxy acid method and the halogen alcohol method are commonly used. In the peroxy acid method, the peroxy acid reacts with the double bond of polybutadiene to form an epoxy group. However, the preparation, stability and control of reaction conditions of peroxy acid are all challenges. The reaction temperature, time, peroxy acid concentration, etc., are slightly different, and the epoxy degree and properties of the product will be affected. Although the principle of the halogen-alcohol method is clear, the halogen agent and polybutadiene double bond are first reacted to obtain the halogen alcohol intermediate, and then cyclized to obtain the cyclic oxidation product. However, the halogenation process is prone to side reactions, and the subsequent treatment is cumbersome. It is necessary to remove halide impurities to maintain the purity of the product.
In addition, the reaction equipment and environment are also critical. A suitable reactor needs to be able to control temperature, pressure and provide good mass and heat transfer conditions. The pH of the reaction system and the choice of solvent are all related to the reaction process and product quality.
Operators also need skilled skills and rich experience. From the ratio of raw materials, the supervision of the reaction process, to the analysis and processing of the product, it all depends on human beings. A little carelessness may cause the product performance to fail to meet expectations.
To sum up, the production process of epoxidized polybutadiene is complicated, and all links are closely interlocked. It is necessary to carefully control the raw materials, methods, equipment, personnel and other aspects to obtain the ideal product.
What is the market price range for epoxy silane oligomers?
The market price range of epoxidized polybutadiene is difficult to generalize, and its price is affected by many factors.
First, it is related to quality. Those with high quality are widely used in high-end fields due to their excellent performance, and their price is high; those with lower quality are mostly suitable for places with lower requirements, and the price is cheap.
Second, the price of raw materials has a great impact. Polybutadiene and epoxy agents are raw materials for the manufacture of epoxidized polybutadiene. If the price of raw materials rises, the price of finished products will also rise; if the price of raw materials falls, the price of finished products may fall.
Third, the market supply and demand situation is a key factor. If the market demand is strong and the supply is limited, the so-called "rare is expensive", the price will rise; if the market is oversupplied, the manufacturer may reduce the price in order to sell.
Fourth, the production process and cost also play a role. Advanced and efficient production processes may reduce costs, but the upfront investment may be large; complex processes may increase costs, which will be reflected in the price.
On today's market, the price of epoxidized polybutadiene ranges from tens of yuan to hundreds of yuan per kilogram. For ordinary quality used in general industrial applications, the price may be tens of yuan to more than 100 yuan per kilogram; while for high-end aerospace, electronics and other fields, high-quality epoxy polybutadiene with strict performance requirements can reach hundreds of yuan per kilogram.
To know the exact price, it is necessary to carefully observe the market dynamics and negotiate with suppliers in order to obtain a quotation that fits the actual situation.
First, it is related to quality. Those with high quality are widely used in high-end fields due to their excellent performance, and their price is high; those with lower quality are mostly suitable for places with lower requirements, and the price is cheap.
Second, the price of raw materials has a great impact. Polybutadiene and epoxy agents are raw materials for the manufacture of epoxidized polybutadiene. If the price of raw materials rises, the price of finished products will also rise; if the price of raw materials falls, the price of finished products may fall.
Third, the market supply and demand situation is a key factor. If the market demand is strong and the supply is limited, the so-called "rare is expensive", the price will rise; if the market is oversupplied, the manufacturer may reduce the price in order to sell.
Fourth, the production process and cost also play a role. Advanced and efficient production processes may reduce costs, but the upfront investment may be large; complex processes may increase costs, which will be reflected in the price.
On today's market, the price of epoxidized polybutadiene ranges from tens of yuan to hundreds of yuan per kilogram. For ordinary quality used in general industrial applications, the price may be tens of yuan to more than 100 yuan per kilogram; while for high-end aerospace, electronics and other fields, high-quality epoxy polybutadiene with strict performance requirements can reach hundreds of yuan per kilogram.
To know the exact price, it is necessary to carefully observe the market dynamics and negotiate with suppliers in order to obtain a quotation that fits the actual situation.
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