hesheng chemical
PRODUCTS
Silane-I For Flame Retardant Treatment
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HS Code |
721269 |
As an accredited Silane-I For Flame Retardant Treatment factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - liter bottle of "Silane - I For Flame Retardant Treatment" chemical packaging. |
| Storage | Silane - I for Flame Retardant Treatment should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly - sealed container to prevent moisture absorption and degradation. Ensure the storage environment has a stable temperature, preferably between 5 - 30°C, to maintain its chemical integrity. |
| Shipping | Silane - I for Flame Retardant Treatment is shipped in sealed, specialized containers to prevent leakage. It's transported under strict safety protocols, ensuring compliance with chemical shipping regulations to safeguard handlers and the environment. |
Competitive Silane-I For Flame Retardant Treatment prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8618136850665 or mail to sales6@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8618136850665
Email: sales6@alchemist-chem.com
Historical Development
In ancient times, there was a thing called Silane - I For Flame Retardant Treatment, which was not well known. At the beginning, among all kinds of materials, it was occasionally used, and only a small test of its effect.
As time goes by, the craftsman gradually understands its nature. Knowing this substance, it is quite wonderful in its flame retardant ability. So it is widely used, from palace rooms to boat equipment, all rely on it to prevent the trouble of Zhu Rong.
At times, people are good at thinking, and they introduce new ones, study its formula, and change its production method, so that the quality of this product is more and more sophisticated. Silane - I For Flame Retardant Treatment has gradually become famous in the world, and is valued by everyone. It has become an indispensable thing in the passage of time. It has made remarkable achievements in flame retardant treatment. It has witnessed the rise and change of various industries and the evolution of time. Its use has been wider and continues to this day.
As time goes by, the craftsman gradually understands its nature. Knowing this substance, it is quite wonderful in its flame retardant ability. So it is widely used, from palace rooms to boat equipment, all rely on it to prevent the trouble of Zhu Rong.
At times, people are good at thinking, and they introduce new ones, study its formula, and change its production method, so that the quality of this product is more and more sophisticated. Silane - I For Flame Retardant Treatment has gradually become famous in the world, and is valued by everyone. It has become an indispensable thing in the passage of time. It has made remarkable achievements in flame retardant treatment. It has witnessed the rise and change of various industries and the evolution of time. Its use has been wider and continues to this day.
Product Overview
Product Overview of Silane-I Flame Retardant Treatment Agent
There are silane-I flame retardant treatment agents today, which are specific in nature and effective. This agent is specially designed for flame retardant and has a wide range of applications.
Its quality is pure and stable, and it can be well integrated with various materials. Applied to the object, it can quickly build flame retardant protection. In case of fire, it can prevent the spread of flame, reduce the potential of combustion, make the object non-flammable and ensure its safety.
Suitable for a variety of materials, such as fabrics, wood, plastics, etc. After its treatment, the flame retardant performance of the material is greatly increased, and the original characteristics are rarely damaged. Easy to operate, or dip, or paint, or spray.
This silane-I flame retardant treatment agent is a fire-proof device and makes a great contribution to safety protection.
There are silane-I flame retardant treatment agents today, which are specific in nature and effective. This agent is specially designed for flame retardant and has a wide range of applications.
Its quality is pure and stable, and it can be well integrated with various materials. Applied to the object, it can quickly build flame retardant protection. In case of fire, it can prevent the spread of flame, reduce the potential of combustion, make the object non-flammable and ensure its safety.
Suitable for a variety of materials, such as fabrics, wood, plastics, etc. After its treatment, the flame retardant performance of the material is greatly increased, and the original characteristics are rarely damaged. Easy to operate, or dip, or paint, or spray.
This silane-I flame retardant treatment agent is a fire-proof device and makes a great contribution to safety protection.
Physical & Chemical Properties
On the Physical and Chemical Properties of "Silane-I for Flame Retardant Treatment" Products
There is a product now called "Silane-I for Flame Retardant Treatment". Its physical and chemical properties are related to its use and cannot be ignored.
As far as its physical rationality is concerned, its form, or liquid state, has good fluidity, is easy to apply and spray, and can be evenly coated on the surface of the treated object to form a protective film. Its color or clear, does not hide the true color of the covered object, and is unobstructed.
When it comes to chemical properties, this product has the ability to flame retardant. In case of fire, a layer of isolated substances can be formed on the surface to prevent oxygen from contacting with combustible substances, so as to achieve flame retardant effect. And the chemical properties are stable, it is not easy to react with common substances, and it can maintain its characteristics for a long time. It is well-protected and can be used in many fields.
There is a product now called "Silane-I for Flame Retardant Treatment". Its physical and chemical properties are related to its use and cannot be ignored.
As far as its physical rationality is concerned, its form, or liquid state, has good fluidity, is easy to apply and spray, and can be evenly coated on the surface of the treated object to form a protective film. Its color or clear, does not hide the true color of the covered object, and is unobstructed.
When it comes to chemical properties, this product has the ability to flame retardant. In case of fire, a layer of isolated substances can be formed on the surface to prevent oxygen from contacting with combustible substances, so as to achieve flame retardant effect. And the chemical properties are stable, it is not easy to react with common substances, and it can maintain its characteristics for a long time. It is well-protected and can be used in many fields.
Technical Specifications & Labeling
Technical Specifications and Standards for Silane-I Flame Retardant Treatment (Product Parameters)
Silane-I Flame Retardant Treatment, its products have specific technical specifications and standards. The materials used in this product need to be of good quality and meet a specific chemical ratio. Its appearance is [specific appearance description], and the smell must be free of pungent odor.
In terms of performance parameters, the flame retardant effect needs to reach [specific flame retardant grade] to ensure that it is difficult to burn under a certain fire source and the flame spreads slowly. Good chemical stability, under conventional environmental conditions, no adverse reactions with other substances for a long time.
Inspection standards are rigorous, and various parameters are accurately measured by professional instruments. The packaging should be sturdy and durable, clearly marked, indicating the product name, specifications, instructions for use and precautions, etc. In this way, only qualified silane-I flame retardant treatment products can be applied to corresponding fields.
Silane-I Flame Retardant Treatment, its products have specific technical specifications and standards. The materials used in this product need to be of good quality and meet a specific chemical ratio. Its appearance is [specific appearance description], and the smell must be free of pungent odor.
In terms of performance parameters, the flame retardant effect needs to reach [specific flame retardant grade] to ensure that it is difficult to burn under a certain fire source and the flame spreads slowly. Good chemical stability, under conventional environmental conditions, no adverse reactions with other substances for a long time.
Inspection standards are rigorous, and various parameters are accurately measured by professional instruments. The packaging should be sturdy and durable, clearly marked, indicating the product name, specifications, instructions for use and precautions, etc. In this way, only qualified silane-I flame retardant treatment products can be applied to corresponding fields.
Preparation Method
Method of making Silane-I flame retardant treatment agent
To make Silane-I flame retardant treatment agent, the raw materials and process are the key. The raw materials need to be selected from high-quality ones, which is fundamental. In the production process, the reaction steps are particularly important. First take an appropriate amount of specific silicone compounds, place them in a clean reactor, and add specific additives in precise proportions. This additive can promote the smooth reaction.
Then, adjust the temperature of the reactor to a suitable range, add moderate stirring, and fully blend the raw materials for the reaction. Wait for the reaction to be stable and maintain a specific duration. This is the critical period of the reaction. During this period, closely monitor the reaction process and fine-tune the conditions according to the phenomenon.
After the reaction is completed, the purification treatment is carried out. By professional separation means, impurities are removed to obtain pure Silane-I flame retardant treatment agent. Through this process, high-quality products can be obtained to meet the needs of flame retardant treatment.
To make Silane-I flame retardant treatment agent, the raw materials and process are the key. The raw materials need to be selected from high-quality ones, which is fundamental. In the production process, the reaction steps are particularly important. First take an appropriate amount of specific silicone compounds, place them in a clean reactor, and add specific additives in precise proportions. This additive can promote the smooth reaction.
Then, adjust the temperature of the reactor to a suitable range, add moderate stirring, and fully blend the raw materials for the reaction. Wait for the reaction to be stable and maintain a specific duration. This is the critical period of the reaction. During this period, closely monitor the reaction process and fine-tune the conditions according to the phenomenon.
After the reaction is completed, the purification treatment is carried out. By professional separation means, impurities are removed to obtain pure Silane-I flame retardant treatment agent. Through this process, high-quality products can be obtained to meet the needs of flame retardant treatment.
Chemical Reactions & Modifications
"Talking about the Chemical Reaction and Modification of Silane-I for Flame Retardant Treatment"
Silane-I is used for flame retardant treatment, which is related to the subtle change of chemistry. It reacts chemically with surrounding substances on the surface of the material. When the silane group encounters active hydrogen, it will bond together, just like a strong bond. This reaction can change the surface properties of the material and add its flame retardant properties.
After this treatment, the internal molecular arrangement of the material is changed or changed, and the microstructure is remodeled. Its chemical bond energy distribution is adjusted, just like a delicate layout, so that heat conduction is blocked, and it is not easy to spread when burning. Under chemical modification, the material seems to have been reborn, capable of withstanding fire and protecting the environment. It has a unique effect in the field of flame retardancy and paves the way for fire prevention.
Silane-I is used for flame retardant treatment, which is related to the subtle change of chemistry. It reacts chemically with surrounding substances on the surface of the material. When the silane group encounters active hydrogen, it will bond together, just like a strong bond. This reaction can change the surface properties of the material and add its flame retardant properties.
After this treatment, the internal molecular arrangement of the material is changed or changed, and the microstructure is remodeled. Its chemical bond energy distribution is adjusted, just like a delicate layout, so that heat conduction is blocked, and it is not easy to spread when burning. Under chemical modification, the material seems to have been reborn, capable of withstanding fire and protecting the environment. It has a unique effect in the field of flame retardancy and paves the way for fire prevention.
Synonyms & Product Names
There is a product in the "List of Trade Names"
today, called "Silane-I For Flame Retardant Treatment", which is a product used for flame retardant treatment. Its nicknames are also numerous, depending on the material, use and characteristics.
As far as the material is concerned, because it contains silane components, it can be called "silane-based flame retardant treatment agent". From the perspective of use, it is specially designed for flame retardant treatment, so it is named "special flame retardant treatment silane agent". In terms of characteristics, it may be called "high-efficiency flame retardant silane preparation".
All kinds of other names are used to express their characteristics, helping people in business transactions and process applications to better understand the performance and utility of this object, so as to achieve the purpose of making the best use of it and having it in business.
Safety & Operational Standards
"Silane - I for Flame Retardant Treatment" Product Safety and Operation Specifications
"Silane - I for Flame Retardant Treatment" are related to safety and operation specifications and need to be detailed.
When storing this product, it should be placed in a cool, dry and well ventilated place. Do not approach fire or heat sources to prevent accidents. Storage temperature should be controlled within a specific range, too high or too low may damage its quality.
When operating, be sure to prepare protective equipment. The operator needs to wear protective clothing, which can protect the body from the damage of the product; wear protective gloves to avoid direct contact between hands and the product; and wear goggles to protect the eyes from damage.
During use, strictly follow the established steps. First clean the workplace, free of debris and dust. Mix "Silane - I" with other materials according to the specified ratio. When stirring, the speed is uniform and the strength is moderate, so that the mixture is uniform.
If you accidentally touch the skin, quickly rinse with a lot of water and seek medical attention. If it splashes into the eye, you should immediately buffer it with water and seek medical help urgently.
After the operation is completed, properly dispose of the remaining products and utensils. Store or discard the remainder in the specified way, and clean the utensils for next use.
Only by following this safety and operating code can the use of "Silane-I for Flame Retardant Treatment" products be guaranteed, avoid danger and protect people's safety.
"Silane - I for Flame Retardant Treatment" are related to safety and operation specifications and need to be detailed.
When storing this product, it should be placed in a cool, dry and well ventilated place. Do not approach fire or heat sources to prevent accidents. Storage temperature should be controlled within a specific range, too high or too low may damage its quality.
When operating, be sure to prepare protective equipment. The operator needs to wear protective clothing, which can protect the body from the damage of the product; wear protective gloves to avoid direct contact between hands and the product; and wear goggles to protect the eyes from damage.
During use, strictly follow the established steps. First clean the workplace, free of debris and dust. Mix "Silane - I" with other materials according to the specified ratio. When stirring, the speed is uniform and the strength is moderate, so that the mixture is uniform.
If you accidentally touch the skin, quickly rinse with a lot of water and seek medical attention. If it splashes into the eye, you should immediately buffer it with water and seek medical help urgently.
After the operation is completed, properly dispose of the remaining products and utensils. Store or discard the remainder in the specified way, and clean the utensils for next use.
Only by following this safety and operating code can the use of "Silane-I for Flame Retardant Treatment" products be guaranteed, avoid danger and protect people's safety.
Application Area
Today there is Silane - I For Flame Retardant Treatment, which is widely used. In various application fields, the first is the flame retardant of fabrics. Fabrics are often in danger of fire, and treatment with this material can increase their flame retardant ability and protect the safety of people and property.
Furthermore, in the field of building materials, there are also many applications. Building materials are related to residence safety. By Silane - I treatment, building materials can be used when a fire starts, delay the spread of fire, and win opportunities for evacuation.
It is also indispensable in the protection of electronic equipment. If the electronic equipment encounters a fire, the loss is huge. Dealing with related components with this product can reduce the risk of fire and protect the integrity of the electronic equipment. In various application fields, it is a good tool to prevent fire and ensure safety.
Furthermore, in the field of building materials, there are also many applications. Building materials are related to residence safety. By Silane - I treatment, building materials can be used when a fire starts, delay the spread of fire, and win opportunities for evacuation.
It is also indispensable in the protection of electronic equipment. If the electronic equipment encounters a fire, the loss is huge. Dealing with related components with this product can reduce the risk of fire and protect the integrity of the electronic equipment. In various application fields, it is a good tool to prevent fire and ensure safety.
Research & Development
The research and development of silane-I flame retardant treatment
in the modern era, the use of materials, seeking safety and flame retardant treatment. Silane-I is a new material for flame retardant treatment, and its research and development have been noted.
The researchers have exhausted their thinking and used the principle of chemical treatment to prepare the formula of Silane-I. To achieve excellent flame retardant performance, and to ensure the safety of the product. At the beginning, the new product is not produced, such as the flame retardant effect has not yet been completed, or the integration of other materials is not good.
However, the researchers have made unremitting efforts to improve the synthesis method. Or the integrity, the strength of the force, or more catalytic. With success, the flame retardant effect of Silane-I has improved, it can effectively resist the spread of fire, and many substrates are different.
Today's Silane-I is not comparable to what it used to be. Not yet, researchers are still moving forward, expecting it to be widely used in different fields to ensure safety and promote development.
in the modern era, the use of materials, seeking safety and flame retardant treatment. Silane-I is a new material for flame retardant treatment, and its research and development have been noted.
The researchers have exhausted their thinking and used the principle of chemical treatment to prepare the formula of Silane-I. To achieve excellent flame retardant performance, and to ensure the safety of the product. At the beginning, the new product is not produced, such as the flame retardant effect has not yet been completed, or the integration of other materials is not good.
However, the researchers have made unremitting efforts to improve the synthesis method. Or the integrity, the strength of the force, or more catalytic. With success, the flame retardant effect of Silane-I has improved, it can effectively resist the spread of fire, and many substrates are different.
Today's Silane-I is not comparable to what it used to be. Not yet, researchers are still moving forward, expecting it to be widely used in different fields to ensure safety and promote development.
Toxicity Research
Toxicological analysis: Silane-I flame retardant treatment agent
has been in recent times, and foreign bodies have arrived. Silane-I flame retardant treatment agent has also been used in various applications. Its flame retardant effect is quite significant, but the analysis of toxicology cannot be ignored.
Examine this agent in detail, its composition is complex and contains various chemical substances. After analysis, some of the substances may be harmful to organisms. If it touches the skin, or causes allergies, the skin is red, itchy, and even ulcerated. If inhaled inadvertently, it will involve the respiratory system, cause cough, asthma, and damage the function of the lungs for a long time.
And the impact of this agent on the environment should not be underestimated. Flowing into water and soil, or polluting it, endangering life. Therefore, when using this agent, we should be cautious, study its toxicology in detail, make good policies, and ensure people's safety and environmental peace.
has been in recent times, and foreign bodies have arrived. Silane-I flame retardant treatment agent has also been used in various applications. Its flame retardant effect is quite significant, but the analysis of toxicology cannot be ignored.
Examine this agent in detail, its composition is complex and contains various chemical substances. After analysis, some of the substances may be harmful to organisms. If it touches the skin, or causes allergies, the skin is red, itchy, and even ulcerated. If inhaled inadvertently, it will involve the respiratory system, cause cough, asthma, and damage the function of the lungs for a long time.
And the impact of this agent on the environment should not be underestimated. Flowing into water and soil, or polluting it, endangering life. Therefore, when using this agent, we should be cautious, study its toxicology in detail, make good policies, and ensure people's safety and environmental peace.
Future Prospects
"Future Prospects"
Today, there is a product of Silane - I For Flame Retardant Treatment, and its future is uncertain. This product is the best flame retardant treatment, and it must be widely used in industrial fields, such as construction, manufacturing, etc.
Not yet, its performance may be more perfect. The researchers will make unremitting changes to make the flame retardant effect more effective and lasting. It also pays attention to the protection characteristics, which is in line with the trend of color development. In the market, the safety of people will increase, and its demand will surge. The volume of the product will continue to grow, and it is an important place in the global market. Therefore, this product will not be widely used, and it will be promoted.
Today, there is a product of Silane - I For Flame Retardant Treatment, and its future is uncertain. This product is the best flame retardant treatment, and it must be widely used in industrial fields, such as construction, manufacturing, etc.
Not yet, its performance may be more perfect. The researchers will make unremitting changes to make the flame retardant effect more effective and lasting. It also pays attention to the protection characteristics, which is in line with the trend of color development. In the market, the safety of people will increase, and its demand will surge. The volume of the product will continue to grow, and it is an important place in the global market. Therefore, this product will not be widely used, and it will be promoted.
Where to Buy Silane-I For Flame Retardant Treatment in China?
As a trusted Silane-I For Flame Retardant Treatment manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
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 Silane-I For Flame Retardant Treatment 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 scenarios of Silane-I for flame retardant treatment?
Silane-I% is used for flame retardant treatment, and its main application scenarios are quite extensive. In the field of construction, building materials can be protected against fire. For example, the thermal insulation material of the exterior wall of the building is treated with silane-I% flame retardant treatment, which can reduce the spread of fire in case of fire, and gain time for the evacuation of personnel in the building and fire rescue. In terms of transportation, it can be applied to vehicle interior materials. After this treatment, the interior of automobiles, trains and other interiors can be delayed in case of fire, reduce the amount of smoke generated, and ensure the safety of passengers. In addition, the electronic and electrical industries are also indispensable. The internal circuit boards and shells of electronic equipment are treated with silane-I% flame retardant treatment, which can prevent fires caused by circuit failures and protect the safety of equipment and users. In the aerospace industry, many materials inside aircraft, such as seats, upholstery and insulation materials, are treated with silane-I% to meet strict fire protection standards and ensure flight safety. In addition, in the furniture manufacturing industry, furniture materials such as tables, chairs and mattresses are flame retardant to reduce the risk of home fires and protect home safety.
How long does Silane-I last for flame retardant treatment?
The durability of silane in flame retardant treatment depends on many reasons. The nature of silane itself, the type and concentration used, the characteristics of the treatment material, such as material, surface morphology, and the treatment method and environment, can all affect the durability of its flame retardant effect.
If the silane is of good quality, suitable materials, and the concentration is appropriate, and the treatment process is appropriate, the flame retardant effect may last in a suitable environment. However, if the adaptation is poor, or the treatment is inaccurate, the durability of the effect is difficult to guarantee.
Generally speaking, with proper silane flame retardant treatment, the effect may last for several years in normal environments. In harsh environments, such as high temperature, high humidity, and strong corrosion, the effect decays or accelerates.
If wood is used as an example and silane is treated, the flame retardant effect may be maintained for several years in a dry, room temperature room; if placed outdoors, exposed to rain and wind, the effect may be maintained for a short period of time, or only one or two years.
It is necessary that silane is used for flame retardant treatment, and its effect is maintained for a long time. There is no fixed number. It depends on various factors. In practical application, various conditions must be carefully considered to achieve the best effect.
If the silane is of good quality, suitable materials, and the concentration is appropriate, and the treatment process is appropriate, the flame retardant effect may last in a suitable environment. However, if the adaptation is poor, or the treatment is inaccurate, the durability of the effect is difficult to guarantee.
Generally speaking, with proper silane flame retardant treatment, the effect may last for several years in normal environments. In harsh environments, such as high temperature, high humidity, and strong corrosion, the effect decays or accelerates.
If wood is used as an example and silane is treated, the flame retardant effect may be maintained for several years in a dry, room temperature room; if placed outdoors, exposed to rain and wind, the effect may be maintained for a short period of time, or only one or two years.
It is necessary that silane is used for flame retardant treatment, and its effect is maintained for a long time. There is no fixed number. It depends on various factors. In practical application, various conditions must be carefully considered to achieve the best effect.
What is the environmental impact of Silane-I for flame retardant treatment?
Silane-I% is used for flame retardant treatment, and its impact on the environment is very critical. When silane-I% is flame retardant treated, if properly disposed, the negative impact on the environment may be mitigated.
Silane-I% is in the process of flame retardant, if it leaks, it may cause pollution to soil and water bodies. If its chemical substances penetrate into the soil, or change the physical and chemical properties of the soil, it will affect the survival and activity of soil microorganisms, and then affect plant growth. If it enters the water body, it may cause water quality to deteriorate, threatening the life safety of aquatic organisms and disturbing the balance of aquatic ecosystems.
And when silane-I% is used, if it volatilizes into the atmosphere or forms harmful gases, it will affect air quality. If people inhale such gases, it may damage the health of the respiratory system.
However, if appropriate technologies and equipment are used for flame retardant treatment, management and protection may be strengthened, and the harm to the environment may be reduced. For example, during the treatment process, an efficient exhaust gas treatment device is set up to absorb volatile silane-I%; wastewater is properly treated to ensure that the discharge standard is met; ventilation and ventilation in the workplace are done to reduce the accumulation of harmful gases.
Therefore, when silane-I% is used for flame retardant treatment, its impact on the environment exists, but reasonable measures can reduce its harm. It is necessary to use this substance in a prudent manner to balance the relationship between flame retardant demand and environmental protection.
Silane-I% is in the process of flame retardant, if it leaks, it may cause pollution to soil and water bodies. If its chemical substances penetrate into the soil, or change the physical and chemical properties of the soil, it will affect the survival and activity of soil microorganisms, and then affect plant growth. If it enters the water body, it may cause water quality to deteriorate, threatening the life safety of aquatic organisms and disturbing the balance of aquatic ecosystems.
And when silane-I% is used, if it volatilizes into the atmosphere or forms harmful gases, it will affect air quality. If people inhale such gases, it may damage the health of the respiratory system.
However, if appropriate technologies and equipment are used for flame retardant treatment, management and protection may be strengthened, and the harm to the environment may be reduced. For example, during the treatment process, an efficient exhaust gas treatment device is set up to absorb volatile silane-I%; wastewater is properly treated to ensure that the discharge standard is met; ventilation and ventilation in the workplace are done to reduce the accumulation of harmful gases.
Therefore, when silane-I% is used for flame retardant treatment, its impact on the environment exists, but reasonable measures can reduce its harm. It is necessary to use this substance in a prudent manner to balance the relationship between flame retardant demand and environmental protection.
How does Silane-I perform on different materials for flame retardant treatment?
Silane is treated with flame retardant treatment and applied to different materials, and its shape is different. Silane has unique properties and can interact with the surface of various materials to form a protective state and resist the spread of fire.
In porous materials such as wood, silane penetrates into its pores. When hot, silane decomposes and accumulates on the surface of the material to form a heat-resistant silica layer. If it is a barrier, it can block oxygen and heat, and slow down the combustion of the wood.
When encountering metal materials, silane reacts with groups on the metal surface to form a dense silica-oxygen bond structure. This structure not only enhances the corrosion resistance of the metal, but also inhibits the oxidation of the metal at high temperatures, hindering the spread of fire along the metal.
As for plastic materials, silane may become entangled with plastic molecules or cause cross-linking reactions to change its molecular structure. In this way, the thermal stability of plastics increases, and when burned, a carbonized layer is formed on the surface, such as a shield to protect it, reducing flammability.
For stone and the like, silane penetrates into its micro-crevices. After curing, it strengthens the stone structure and forms a water-repellent state. In case of fire, the water-repellent property makes it difficult to store water vapor, reducing the risk of cracking the stone due to water vapor expansion. At the same time, the silane decomposition products cover the surface of the stone, reducing heat transfer and achieving the effect of flame retardation.
Overall, silane is used on different materials to form a barrier layer or modify the molecular structure, depending on the material characteristics. All materials are flame retardant, and each can develop its own capabilities to protect them from fire.
In porous materials such as wood, silane penetrates into its pores. When hot, silane decomposes and accumulates on the surface of the material to form a heat-resistant silica layer. If it is a barrier, it can block oxygen and heat, and slow down the combustion of the wood.
When encountering metal materials, silane reacts with groups on the metal surface to form a dense silica-oxygen bond structure. This structure not only enhances the corrosion resistance of the metal, but also inhibits the oxidation of the metal at high temperatures, hindering the spread of fire along the metal.
As for plastic materials, silane may become entangled with plastic molecules or cause cross-linking reactions to change its molecular structure. In this way, the thermal stability of plastics increases, and when burned, a carbonized layer is formed on the surface, such as a shield to protect it, reducing flammability.
For stone and the like, silane penetrates into its micro-crevices. After curing, it strengthens the stone structure and forms a water-repellent state. In case of fire, the water-repellent property makes it difficult to store water vapor, reducing the risk of cracking the stone due to water vapor expansion. At the same time, the silane decomposition products cover the surface of the stone, reducing heat transfer and achieving the effect of flame retardation.
Overall, silane is used on different materials to form a barrier layer or modify the molecular structure, depending on the material characteristics. All materials are flame retardant, and each can develop its own capabilities to protect them from fire.
What is the use of Silane-I for flame retardant treatment?
Silane is used for flame retardant treatment, and its usage is as follows:
Silane is very effective in flame retardant services. When using it, first treat the object so that it is clean and dry, scale-free and moisture-free, and then achieve the best effect.
Take an appropriate amount of silane and dilute it with a solvent. The selected solvent, when it is soluble with silane and has a suitable rate of volatilization, such as common organic solvents such as ethanol and acetone, can be selected. The dilution ratio depends on the nature of the substance being treated and the degree of flame retardancy required, and probably follows the relevant formulas and specifications.
Then, the diluted silane solution is applied to the substance to be treated. There are three methods: the first is the impregnation method, which immerses the material in the silane liquid, which lasts for several times to make the silane fully adhere and penetrate. The time is temporary, which is related to the texture and thickness of the material. The thick one is immersed for a long time, and the thin one is temporarily immersed. The second is the spraying method, which uses a spray gun to spray the silane liquid evenly on the surface of the material. During operation, the distance between the spray gun and the material and the speed of movement must be properly controlled to ensure that the silane liquid is evenly distributed. The third is the brush coating method. Dip a brush in the silane liquid and carefully brush the surface of the material to ensure that there are no omissions.
After applying the silane liquid, place the material in a well-ventilated place to allow the solvent to evaporate naturally. It can also be heated moderately, but the temperature should not be too high to prevent damage to the material and affect the properties of the silane. When the solvent dissipates, the silane forms a film on the surface of the material or bonds with the material, and then becomes a flame retardant and protective state, which can increase the flame retardancy of the material and prevent fire from brewing.
Silane is very effective in flame retardant services. When using it, first treat the object so that it is clean and dry, scale-free and moisture-free, and then achieve the best effect.
Take an appropriate amount of silane and dilute it with a solvent. The selected solvent, when it is soluble with silane and has a suitable rate of volatilization, such as common organic solvents such as ethanol and acetone, can be selected. The dilution ratio depends on the nature of the substance being treated and the degree of flame retardancy required, and probably follows the relevant formulas and specifications.
Then, the diluted silane solution is applied to the substance to be treated. There are three methods: the first is the impregnation method, which immerses the material in the silane liquid, which lasts for several times to make the silane fully adhere and penetrate. The time is temporary, which is related to the texture and thickness of the material. The thick one is immersed for a long time, and the thin one is temporarily immersed. The second is the spraying method, which uses a spray gun to spray the silane liquid evenly on the surface of the material. During operation, the distance between the spray gun and the material and the speed of movement must be properly controlled to ensure that the silane liquid is evenly distributed. The third is the brush coating method. Dip a brush in the silane liquid and carefully brush the surface of the material to ensure that there are no omissions.
After applying the silane liquid, place the material in a well-ventilated place to allow the solvent to evaporate naturally. It can also be heated moderately, but the temperature should not be too high to prevent damage to the material and affect the properties of the silane. When the solvent dissipates, the silane forms a film on the surface of the material or bonds with the material, and then becomes a flame retardant and protective state, which can increase the flame retardancy of the material and prevent fire from brewing.
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