Shanxian Chemical
PRODUCTS
Zinc Diethylphosphinate
Shanxian Chemical
|
HS Code |
954193 |
| Chemical Formula | C4H10O4P2Zn |
| Molecular Weight | 281.50 g/mol |
| Appearance | white powder |
| Odor | odorless |
| Solubility In Water | insoluble |
| Solubility In Organic Solvents | soluble in some polar organic solvents |
| Melting Point | above 300 °C |
| Thermal Stability | high thermal stability |
| Flammability | non - flammable |
| Chemical Stability | stable under normal conditions |
As an accredited Zinc Diethylphosphinate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Zinc Diethylphosphinate in 25 - kg bags, suitable for chemical storage. |
| Storage | Zinc Diethylphosphinate should be stored in a cool, dry place, away from direct sunlight and heat sources. Keep it in a well - sealed container to prevent moisture absorption and contact with air, which could potentially lead to degradation. Store separately from incompatible substances like strong oxidizing agents to avoid hazardous reactions. |
| Shipping | Zinc Diethylphosphinate is shipped in sealed, corrosion - resistant containers. Special care is taken to prevent moisture ingress as it may affect its properties. Shipment adheres to strict chemical transportation regulations. |
Competitive Zinc Diethylphosphinate prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365186327 or mail to info@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: info@liwei-chem.com
Historical Development
Zinc Diethylphosphate belongs to the genus of flame retardants. Although its origin is difficult to study in detail, the process of chemical evolution is gradually emerging. At the beginning, the demand for material fire protection was not strong, and the relevant research was not in depth. Catching the rise of industry, flammable materials are widely used, and fire prevention is urgent. The engineers and researchers thought hard and hoped for a good plan.
At that time, more and more attention was paid to phosphorus-based flame retardants. After repeated tests and research, Zinc Diethylphosphinate finally stood out. With its unique chemistry, it has shown extraordinary effectiveness in the field of flame retardancy. With the passage of time, the technology has become more and more perfect, and the application has become more and more extensive, from electronic devices to building materials, all of which are involved in ensuring safety.
At that time, more and more attention was paid to phosphorus-based flame retardants. After repeated tests and research, Zinc Diethylphosphinate finally stood out. With its unique chemistry, it has shown extraordinary effectiveness in the field of flame retardancy. With the passage of time, the technology has become more and more perfect, and the application has become more and more extensive, from electronic devices to building materials, all of which are involved in ensuring safety.
Product Overview
Product Overview
Zinc Diethylphosphinate (Zinc Diethylphosphinate) is a new type of high-efficiency flame retardant. Its structure is unique, composed of zinc ions and diethylphosphinate ions ingeniously combined.
This product has many excellent characteristics. The flame retardant effect is remarkable. Adding a little to the material can greatly improve its flame retardant performance, effectively inhibit flame spread, and reduce smoke generation. Excellent thermal stability, even in high temperature environments, can maintain structural stability, do not decompose, and do not evaporate, thus ensuring that the flame retardant properties of the material are not affected during processing and use. And it has good compatibility with a variety of polymers, is easy to disperse evenly, and does not damage the original physical and mechanical properties of the material, such as strength and toughness.
Because of its many advantages, zinc diethyl hypophosphite is widely used in electronic appliances, automotive interiors, building materials and other fields, providing a strong guarantee for the flame retardant safety of materials in various industries.
Zinc Diethylphosphinate (Zinc Diethylphosphinate) is a new type of high-efficiency flame retardant. Its structure is unique, composed of zinc ions and diethylphosphinate ions ingeniously combined.
This product has many excellent characteristics. The flame retardant effect is remarkable. Adding a little to the material can greatly improve its flame retardant performance, effectively inhibit flame spread, and reduce smoke generation. Excellent thermal stability, even in high temperature environments, can maintain structural stability, do not decompose, and do not evaporate, thus ensuring that the flame retardant properties of the material are not affected during processing and use. And it has good compatibility with a variety of polymers, is easy to disperse evenly, and does not damage the original physical and mechanical properties of the material, such as strength and toughness.
Because of its many advantages, zinc diethyl hypophosphite is widely used in electronic appliances, automotive interiors, building materials and other fields, providing a strong guarantee for the flame retardant safety of materials in various industries.
Physical & Chemical Properties
Zinc Diethylphosphate, chemical products are also. Its physical and chemical properties are quite worth studying. Looking at its color, it is often white and delicate as powder, which is a sign of its appearance. When it comes to solubility, it can gradually melt and miscible in specific organic solvents, which is one of its important physical properties.
In terms of chemical properties, it has a certain thermal stability. Under moderate heating environment, the structure can be maintained and not easily decomposed. In the case of some active reagents, it can cause specific chemical reactions and show its unique chemical activity. It is widely used in the field of flame retardancy. With its own physical and chemical properties, it can effectively prevent the spread of fire, which is essential for material safety protection.
In terms of chemical properties, it has a certain thermal stability. Under moderate heating environment, the structure can be maintained and not easily decomposed. In the case of some active reagents, it can cause specific chemical reactions and show its unique chemical activity. It is widely used in the field of flame retardancy. With its own physical and chemical properties, it can effectively prevent the spread of fire, which is essential for material safety protection.
Technical Specifications & Labeling
"Technical Specifications and Labeling (Product Parameters) of Zinc Diethylphosphinate"
There is Zinc Diethylphosphinate today, and its technical specifications are crucial. The appearance should be pure and free of impurities, and the color should be uniform. Its purity must reach a very high standard, and the impurity content must be minimal to meet the quality requirements.
As for the label, the name of the product should be clearly marked, that is, Zinc Diethylphosphinate, and the key product parameters should be listed in detail. If the chemical composition needs to be accurate, the user should be able to understand its essence. Physical properties such as melting point, boiling point, etc., should also be accurately identified to help the user in operation and application, and can be properly disposed of according to its characteristics to ensure the safety and performance of use. In this way, the technical specifications and labels are complete to meet the needs of the product.
There is Zinc Diethylphosphinate today, and its technical specifications are crucial. The appearance should be pure and free of impurities, and the color should be uniform. Its purity must reach a very high standard, and the impurity content must be minimal to meet the quality requirements.
As for the label, the name of the product should be clearly marked, that is, Zinc Diethylphosphinate, and the key product parameters should be listed in detail. If the chemical composition needs to be accurate, the user should be able to understand its essence. Physical properties such as melting point, boiling point, etc., should also be accurately identified to help the user in operation and application, and can be properly disposed of according to its characteristics to ensure the safety and performance of use. In this way, the technical specifications and labels are complete to meet the needs of the product.
Preparation Method
The method of making Zinc Diethylphosphinate is to select the first raw material. Based on high-quality diethyl phosphite and zinc salt, the two must be pure and pure in order to maintain the quality of the product. The preparation process first involves diethyl phosphite and zinc salt in a clean reactor according to a certain ratio. Control the temperature to a suitable degree, usually about [X] degrees Celsius, and stir slowly to make the two fully blend. During the reaction, it is necessary to closely observe its changes, and fine-tune the temperature and stirring rate according to the reaction process. After the reaction is completed, the impurities are removed through precipitation, filtration and other processes. The obtained crude product is recrystallized with a suitable solvent, and the temperature and time are carefully controlled to make the crystals precipitate perfectly. Repeated purification, the final high purity of Zinc Diethylphosphinate products. This method of preparation, raw materials and processes are fine, the reaction steps are orderly, controlled system, can also get good products.
Chemical Reactions & Modifications
Zinc Diethylphosphate, in the field of chemistry, its reaction and modification are of great importance to us. Its reaction also involves the change of chemical combination, the interaction of atoms, and the formation of new qualities. Its modifier aims to adjust its properties so that it is suitable for use.
Looking at the reaction, the reagents meet, and the conditions are crucial. The difference in temperature, pressure, and the presence or absence of catalysis can change its diameter and change its fruit. To obtain good results, you must carefully control all ends.
As for modification, you can use physical methods, such as the preparation of micronized powder, to change its particle size and increase its surface area to promote its properties. You can also use chemical techniques to graft its function, change its structure, and change its properties. In this way, Zinc Diethylphosphinate can be used in the flame retardant, additive and other industries to develop its growth and make the best use of it, adding to the progress of chemistry.
Looking at the reaction, the reagents meet, and the conditions are crucial. The difference in temperature, pressure, and the presence or absence of catalysis can change its diameter and change its fruit. To obtain good results, you must carefully control all ends.
As for modification, you can use physical methods, such as the preparation of micronized powder, to change its particle size and increase its surface area to promote its properties. You can also use chemical techniques to graft its function, change its structure, and change its properties. In this way, Zinc Diethylphosphinate can be used in the flame retardant, additive and other industries to develop its growth and make the best use of it, adding to the progress of chemistry.
Synonyms & Product Names
Zinc Diethylphosphinate is also a chemical substance. It is the same as the product name, and it has the same properties. Or "diethylphosphinic acid", which is based on the name of its chemical manufacture. Its trade names also have their own names. In the world, there are such things as this, in recognition of their characteristics and uses.
This chemical product, with its unique properties, can be used in a variety of fields. Or as a flame retardant, added to the general material, so that it has fire resistance. It is the same as the trade name, but it is different, but it refers to the same thing. The name of the product, the product, and this thing, all of which are clearly referred to, in order to facilitate research and production.
This chemical product, with its unique properties, can be used in a variety of fields. Or as a flame retardant, added to the general material, so that it has fire resistance. It is the same as the trade name, but it is different, but it refers to the same thing. The name of the product, the product, and this thing, all of which are clearly referred to, in order to facilitate research and production.
Safety & Operational Standards
About Zinc Diethylphosphinate Product Safety and Operation Specifications
#1. Introduction
There is a chemical Zinc Diethylphosphinate today, and its safety and operation specifications should be discussed in detail. Chemical substances can be handled carelessly or cause disasters, so it is essential to regulate.
#2. Safety Matters
1. ** Toxicity Considerations **: After various experimental investigations, although Zinc Diethylphosphinate has not been characterized by significant acute toxicity, it should not be ignored. Long-term exposure to it, or through breathing, skin contact, ingestion, etc., can still endanger health. During operation, it is necessary to strictly abide by protective regulations.
2. ** Explosion risk **: When this product encounters an open flame or hot topic, there is no risk of flammability. However, under certain conditions, if mixed with strong oxidants, or in a high temperature and high pressure environment, there is still a latent risk of explosion. Therefore, when storing and using, it should be kept away from fire sources, heat sources and strong oxidants.
#3. Operating specifications
1. ** Site requirements **: Operate Zinc Diethylated phosphate, and choose a well-ventilated place. If it is a closed space, an effective ventilation device must be prepared to prevent the accumulation of harmful gases. The site should be dry, clean, and away from water sources and humid places, due to the product or adverse reactions with water.
2. ** Personnel protection **: When handling this object, the operator should be in front of suitable protective clothing, such as chemical-resistant work clothes and gloves. Eye protection is indispensable, and goggles should be worn to prevent splashing into the eyes. If powder operation is involved, wear a dust mask to avoid inhalation.
3. ** Operation process **: Use Zinc Diethylphosphinate, and the action should be slow to prevent dust from flying. The weighing process must be accurate, and the utensils used should be clean and dry. When mixing or reacting, the temperature, pressure, time and other parameters should be strictly controlled according to the established procedures, and must not be arbitrarily changed.
#4. Emergency response
1. ** Skin Contact **: If Zinc Diethylphosphinate accidentally comes into contact with the skin, it should be immediately rinsed with a large amount of flowing water for not less than 15 minutes. After washing, depending on the skin condition, seek medical treatment if necessary.
2. ** Eye Contact **: Once splashed into the eyes, it should be quickly rinsed with a large amount of water, and the eyeball should be rotated to fully wash. Subsequently, urgent ophthalmology for medical treatment, no delay.
3. ** Fire Response **: If a fire is caused by Zinc Diethylphosphinate, do not use water to extinguish the fire. When depending on the scene, use dry powder fire extinguishers, carbon dioxide fire extinguishers and other suitable fire extinguishers. Fire extinguishers should take good protection to avoid inhaling smoke and harmful gases.
#5. Conclusion
The safety and operation specifications of Zinc Diethylphosphate should be kept in mind and practiced. Chemical matters are related to human life and the environment, and must not be sloppy at all. Everyone should strictly abide by this regulation to ensure production safety and personnel well-being.
#1. Introduction
There is a chemical Zinc Diethylphosphinate today, and its safety and operation specifications should be discussed in detail. Chemical substances can be handled carelessly or cause disasters, so it is essential to regulate.
#2. Safety Matters
1. ** Toxicity Considerations **: After various experimental investigations, although Zinc Diethylphosphinate has not been characterized by significant acute toxicity, it should not be ignored. Long-term exposure to it, or through breathing, skin contact, ingestion, etc., can still endanger health. During operation, it is necessary to strictly abide by protective regulations.
2. ** Explosion risk **: When this product encounters an open flame or hot topic, there is no risk of flammability. However, under certain conditions, if mixed with strong oxidants, or in a high temperature and high pressure environment, there is still a latent risk of explosion. Therefore, when storing and using, it should be kept away from fire sources, heat sources and strong oxidants.
#3. Operating specifications
1. ** Site requirements **: Operate Zinc Diethylated phosphate, and choose a well-ventilated place. If it is a closed space, an effective ventilation device must be prepared to prevent the accumulation of harmful gases. The site should be dry, clean, and away from water sources and humid places, due to the product or adverse reactions with water.
2. ** Personnel protection **: When handling this object, the operator should be in front of suitable protective clothing, such as chemical-resistant work clothes and gloves. Eye protection is indispensable, and goggles should be worn to prevent splashing into the eyes. If powder operation is involved, wear a dust mask to avoid inhalation.
3. ** Operation process **: Use Zinc Diethylphosphinate, and the action should be slow to prevent dust from flying. The weighing process must be accurate, and the utensils used should be clean and dry. When mixing or reacting, the temperature, pressure, time and other parameters should be strictly controlled according to the established procedures, and must not be arbitrarily changed.
#4. Emergency response
1. ** Skin Contact **: If Zinc Diethylphosphinate accidentally comes into contact with the skin, it should be immediately rinsed with a large amount of flowing water for not less than 15 minutes. After washing, depending on the skin condition, seek medical treatment if necessary.
2. ** Eye Contact **: Once splashed into the eyes, it should be quickly rinsed with a large amount of water, and the eyeball should be rotated to fully wash. Subsequently, urgent ophthalmology for medical treatment, no delay.
3. ** Fire Response **: If a fire is caused by Zinc Diethylphosphinate, do not use water to extinguish the fire. When depending on the scene, use dry powder fire extinguishers, carbon dioxide fire extinguishers and other suitable fire extinguishers. Fire extinguishers should take good protection to avoid inhaling smoke and harmful gases.
#5. Conclusion
The safety and operation specifications of Zinc Diethylphosphate should be kept in mind and practiced. Chemical matters are related to human life and the environment, and must not be sloppy at all. Everyone should strictly abide by this regulation to ensure production safety and personnel well-being.
Application Area
Today there is Zinc Diethylphosphate, which has a wide range of application fields. In the field of flame retardancy, various materials can be added to make it flame retardant, such as plastics, fibers, etc., fire-resistant, and protect people and property. In electronic materials, it also has wonderful uses, which can increase the stability of its performance and protect electronic devices for a long time. And in coatings, it can help coatings resist fire and heat insulation, prolong their use period, beautify and protect the surface of objects. This Zinc Diethylphosphinate, with its unique properties, has shown its power in many application fields and has contributed a lot to the development of various industries.
Research & Development
The chemical industry is changing with each passing day, and the research of materials is related to many domains. Zinc Diethylphosphinate has attracted much attention in recent years.
We have dedicated ourselves to studying its properties in detail. Observing its structure and exploring its characteristics is particularly commendable for its flame retardant performance. Its molecular arrangement is exquisite, and when it encounters fire, it can form a carbon layer and resist inflammation, and its effect is remarkable.
And the method of its preparation is also explored more. Optimize the process, improve its purity, and reduce its cost. After various attempts, it has gradually improved. This product is widely used in industrial applications and has broad prospects. It may help to improve the fire resistance of materials, adding to various industries. It is hoped that the follow-up research will be unremitting, promoting its wider application, so as to achieve great success and promote the progress of chemical industry.
We have dedicated ourselves to studying its properties in detail. Observing its structure and exploring its characteristics is particularly commendable for its flame retardant performance. Its molecular arrangement is exquisite, and when it encounters fire, it can form a carbon layer and resist inflammation, and its effect is remarkable.
And the method of its preparation is also explored more. Optimize the process, improve its purity, and reduce its cost. After various attempts, it has gradually improved. This product is widely used in industrial applications and has broad prospects. It may help to improve the fire resistance of materials, adding to various industries. It is hoped that the follow-up research will be unremitting, promoting its wider application, so as to achieve great success and promote the progress of chemical industry.
Toxicity Research
The industry of chemical industry is related to people's livelihood, among which the study of toxicants is particularly important. Today there is Zinc Diethylphosphate, which is quite common in chemical products.
To investigate its toxicity, it is necessary to investigate its properties in detail. Under specific conditions, or with other substances, the change in its reaction is related to the hidden toxicity. After many tests, observe its impact on organisms and observe what it does in the environment.
Toxicity research is not done overnight, it takes a long time, and there is a lot of evidence. Or observe the path of its entry into the body, through the mouth, through the skin, or through breathing, and the effect is different. Also observe the difference in toxic reactions between different organisms.
I wish to use detailed research to clarify the toxicity of Zinc Diethylphosphate, for the safety of the chemical industry, the health of the people's livelihood, paving stones and building roads, and ensuring that everyone is safe.
To investigate its toxicity, it is necessary to investigate its properties in detail. Under specific conditions, or with other substances, the change in its reaction is related to the hidden toxicity. After many tests, observe its impact on organisms and observe what it does in the environment.
Toxicity research is not done overnight, it takes a long time, and there is a lot of evidence. Or observe the path of its entry into the body, through the mouth, through the skin, or through breathing, and the effect is different. Also observe the difference in toxic reactions between different organisms.
I wish to use detailed research to clarify the toxicity of Zinc Diethylphosphate, for the safety of the chemical industry, the health of the people's livelihood, paving stones and building roads, and ensuring that everyone is safe.
Future Prospects
In today's world, Zinc Diethylphosphinate has already made a name for itself. It has outstanding properties and a wide range of applications. It has made remarkable achievements in the field of flame retardancy.
Looking forward to the future, its development path seems to have a lot to look forward to. With the new technology and the high demand for material properties, Zinc Diethylphosphinate may be able to expand in more new fields based on its characteristics. Such as electronic equipment, building materials and other fields, it may be able to shine.
And with the progress of research, the production method may be better, the cost may be reduced, and the quality may be better. In this way, its competitiveness in the market will be stronger. The future development is truly promising, and it is hoped that it will bring more innovation and well-being to various industries.
Looking forward to the future, its development path seems to have a lot to look forward to. With the new technology and the high demand for material properties, Zinc Diethylphosphinate may be able to expand in more new fields based on its characteristics. Such as electronic equipment, building materials and other fields, it may be able to shine.
And with the progress of research, the production method may be better, the cost may be reduced, and the quality may be better. In this way, its competitiveness in the market will be stronger. The future development is truly promising, and it is hoped that it will bring more innovation and well-being to various industries.
Where to Buy Zinc Diethylphosphinate in China?
As a trusted Zinc Diethylphosphinate 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 Zinc Diethylphosphinate 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 Zinc Diethylphosphate
Zinc-diethyl hypophosphite has a wide range of main application fields. In the field of flame retardant materials, the combination of the two shows excellent performance. Zinc has stable chemical properties, and diethyl hypophosphite has high flame retardant properties. The compatibility of the two is often used in polymer materials for flame retardancy. For example, many plastic products, such as polyolefins, polyesters, etc., are mixed with zinc-diethyl hypophosphite, which can greatly improve its flame retardant level. In the event of a fire, it delays the spread of fire and wins valuable opportunities for personnel evacuation and fire fighting operations.
Furthermore, it is also used in the field of electronic and electrical. With the popularity of electronic equipment, the flame retardancy requirements of its materials are increasing. Zinc-diethyl hypophosphite is used in electronic and electrical enclosures, circuit boards and other materials, which can not only ensure that the electrical performance of the material is not too affected, but also ensure its good flame retardant performance and reduce the risk of fire caused by electrical failure.
In addition, in building materials, zinc-diethyl hypophosphite also has a place. The combination of building boards, thermal insulation materials, etc., can enhance the fire resistance of building materials, improve the overall fire safety factor of buildings, and protect the safety of people's lives and property. Its application in different fields depends on its unique chemical properties and excellent flame retardant performance, making great contributions to the safety of many industries.
How Thermal Stability of Zinc Diethylphosphate
The thermal stability of zinc and diethylphosphinic acid salt is crucial for many industrial and material applications. The two are compatible and exhibit good characteristics when heated.
Zinc is an active metal with good chemical activity. Diethylphosphinic acid salt, containing elements such as phosphorus and oxygen, plays an important role in thermal stability mechanism. When the two cooperate, when heated, the phosphorus element in diethylphosphinic acid salt will undergo a series of chemical reactions due to heat. Phosphorus can form a dense protective film on the surface of the material, which acts as a barrier, which can effectively block the transfer of heat and slow down the rate of degradation of the material due to heat.
Furthermore, zinc ions may interact chemically with related groups in diethylphosphinic acid salts, enhancing the interaction force between molecules and making the overall structure more stable. In this way, the molecular structure of the material is not easily damaged during heating, thereby improving thermal stability.
In practical application scenarios, such as in the field of polymer materials, adding zinc and diethylphosphinic acid salts can significantly improve the material's ability to withstand high temperatures. In high temperature environments, the material can maintain its original physical and chemical properties, and is not prone to deformation and decomposition. This property makes the composite have broad application prospects in fields with strict thermal stability requirements, such as shell materials for electronic appliances and automotive interior materials. Through the delicate combination of the two, the thermal stability can be greatly improved, providing a powerful way for material performance optimization in many industries.
Is Zinc Diethylphosphate Environmentally Friendly?
Zinc-diethylhypophosphite is environmentally friendly or not, which is related to many aspects. It is involved in the synthesis and application process, or has implications for the environment.
In terms of synthesis, if the raw material acquisition and preparation process is properly planned, energy efficiency and rational use of materials can be paid attention to, and the negative impact on the environment can be reduced. However, if the process is crude, material waste and energy consumption are high, it is unfavorable to the environment.
In the application field, this substance may have characteristics such as flame retardancy. If it is stable in the product, it is not easy to escape, and the product can be reasonably disposed of after being discarded, the harm to the environment will be small. For example, in applications such as electronic equipment casings, it can help fire safety, and when the product is recycled, if it is properly handled, a large amount of harmful substances will not be scattered into the environment.
However, if the product fails to be effectively recycled or degraded after the end of its life, it will accumulate in the environment, initialize through rain, soil infiltration, etc., or affect soil and water ecology. If it decomposes to produce harmful substances, it will endanger biological and human health.
Therefore, the impact of zinc-diethylphosphinic acid salt on the environment is not generalized, but depends on its whole life cycle management and application. Good control and rational use can seek advantages and avoid disadvantages, which is an environmentally friendly choice; otherwise, it may cause environmental problems.
What is the addition ratio of Zinc Diethylphosphate in different materials?
The addition ratio of zinc and diethylphosphinic acid salt to different materials varies depending on the material application and performance requirements.
In the field of flame retardant materials, these two are often used as flame retardants. If it is a polymer material, such as common polyolefins, in order to achieve good flame retardant effect, the addition ratio of zinc and diethylphosphinic acid salt may be between 2% and 10%. Under this ratio, the flame retardant properties of the material can be effectively improved without unduly affecting the original mechanical properties of the material.
In some engineering plastics, such as nylon systems, due to the characteristics of nylon itself, in order to achieve an ideal balance between flame retardancy and mechanical properties, the addition ratio may need to be adjusted to 5% - 15%. If too little is added, the flame retardant effect is difficult to achieve the expected; if too much is added, the toughness, fluidity and other properties of the nylon material may be damaged.
In terms of composite materials, such as glass fiber reinforced composites, considering the interaction between the reinforcing phase and the matrix, the addition ratio of zinc and diethylphosphonate may be 3% - 12%. When the ratio is appropriate, the composite can ensure that the flame retardancy of the composite material is maintained while maintaining its high strength and high modulus.
In the coating system, in order to impart the flame retardant and anti-corrosion properties of the coating, the addition ratio is usually 1% - 8%. Due to the film-forming characteristics of the coating and the requirements for the appearance and adhesion of the coating, the proportion needs to be precisely adjusted to prevent negative effects on the performance of the coating.
In short, the addition ratio of zinc and diethylphosphonite to different materials requires comprehensive consideration of material characteristics, expected performance and processing technology. After a lot of experiments and practice, the appropriate ratio can be determined to achieve the best application effect.
What is the price range of Zinc Diethylphosphate?
The price range of zinc-diethylphosphinic acid salt varies due to market supply and demand, quality grade, purchase quantity, regional differences and many other factors.
In the case of bulk purchase and ordinary quality, the price may be relatively low, per kilogram or in the tens of yuan spectrum. If the purchase quantity is small and the quality requirements are strict, such as used in special fields such as high-end flame retardant materials, due to the complex production process and strict quality control, the price may rise significantly, or hundreds of yuan per kilogram or even higher.
From a regional perspective, in the vicinity of the origin of raw materials, the price may have certain advantages because of the elimination of many transportation costs; while in places far from the origin and high logistics costs, the price may be higher.
Furthermore, the market supply and demand relationship also has a great impact on the price. If the market demand for zinc-diethylphosphonate is strong, but the supply is relatively insufficient, the price is bound to rise; conversely, if the market supply exceeds demand, the price may be under downward pressure.
In addition, the price of products produced by different manufacturers will fluctuate due to differences in technical level and production cost. Therefore, in order to determine the exact price range, it is necessary to communicate with various suppliers in detail and negotiate with the actual procurement situation to determine.
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