Flame Retardant Dipentaerythritol Mflam Di-Penta
| HS Code | 719934 |
| Chemical Formula | C10H20O7 |
| Molecular Weight | 252.26 g/mol |
| Appearance | White powder |
| Melting Point | 180 - 185 °C |
| Solubility | Insoluble in water, soluble in polar organic solvents |
| Thermal Stability | Good thermal stability |
| Flame Retardant Mechanism | Gas - phase and condensed - phase flame retardancy |
| Volatility | Low volatility |
| Density | Approx. 1.35 g/cm³ |
| Ph Value | Neutral |
As an accredited Flame Retardant Dipentaerythritol Mflam Di-Penta factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Flame Retardant Dipentaerythritol Mflam Di - Penta, 25 - kg bags for packaging. |
| Storage | Flame Retardant Dipentaerythritol Mflam Di - Penta should be stored in a cool, dry place, away from heat sources and direct sunlight. Keep it in a well - ventilated area to prevent the build - up of fumes. Store in a tightly - sealed container to avoid moisture absorption, which could affect its chemical properties and flame - retardant efficacy. |
| Shipping | Flame Retardant Dipentaerythritol Mflam Di - Penta is shipped in sealed, corrosion - resistant containers. Special care is taken to prevent exposure to heat, moisture, and incompatible substances during transit, ensuring safe delivery. |
Competitive Flame Retardant Dipentaerythritol Mflam Di-Penta prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615380400285 or mail to sales2@liwei-chem.com.
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Historical Development
Since the rise of flame retardant materials, human beings have been thinking about it to prevent fire. In recent times, the technology has become more and more new, and many compounds have competed to emerge. Dipentaerythritol, named Mflam Di-Penta, is a genius of modern flame retardants. It first sprouted in the middle of the 20th century. Chemists studied its molecular structure and found that it has the ability to efficiently capture free radicals. Therefore, it was pushed to the field of flame retardant, and it has repeatedly achieved miraculous results. With the revitalization of science and technology, the production method has become more and more mature, the industrial scale has expanded, and the performance has become more and more perfect. So far, all polymer plastics, coatings and electronic devices rely on their stability. This product is both environmentally friendly and safe, revolutionizing traditional flame retardant thinking. Its development trajectory not only reflects the trend of chemical progress, but also shows the wisdom of human beings to coexist safely with fire.
Product Overview
Mflam Di-Penta is the second pentaerythritol for flame retardant. Its fine and pure white, stable, slightly soluble in water, unique edge structure, easy to blend with many types of flame retardants, widely used in plastics, rubber, coatings and other industries. This material can improve the fire resistance of products, slow down the rate of combustion, reduce the release of flue gas and harmful gases, and ensure the safety of users. With its hot topic stability and excellent flame retardant performance, it is highly respected by the industry. In the flame retardant formula, supplemented by phosphorus and nitrogen flame retardants, the effect is particularly effective. Halogen-free environmental protection, in line with the green concept, widely suitable for many high-end fields. Balanced performance and outstanding quality can help many products achieve new fire safety standards, making it an indispensable product in modern flame retardant technology.
Physical & Chemical Properties
Mflam Di-Penta, known as flame retardant dipentaerythritol, is a white crystalline powder with clean properties and a slight odor. Its melting point is as high as 250 degrees Celsius, making it difficult to melt. Moreover, it is insoluble in water, but slightly soluble in alcohols and ethers. The density of this substance is about 1.4 grams per cubic centimeter, and it feels greasy. It has good flame retardant properties in case of fire. It is chemically stable, and it is difficult to react violently with strong acids and alkalis under the seal of light at room temperature. In case of high temperature decomposition, it releases harmless gases, and is synergistic with phosphorus and nitrogen flame retardants. When used in combination with resins, it not only increases its heat resistance, but also strengthens its structure. Therefore, it is widely used in polymer materials and even plastic products, which is actually the best choice for flame retardant additions
Technical Specifications & Labeling
The name of this product is flame retardant dipentaerythritol, no. Mflam Di-Penta, pure white powder, no impurities, no peculiar smell. The molecular formula is C10H22O7, the molecular weight is 274.28. The melting point is above 210 degrees Celsius, insoluble in water, slightly soluble in ethanol and ether. The moisture content is not more than 1%, and the burning residue is very small, usually not more than 2/1000. The content is more than 98% high, the particle size is uniform, and the sieved 99% can reach the 80 mesh standard. The solubility is measured by ethanol, and the solution is clear and turbid. The packaging should be 25kg composite woven bag, lined with moisture-proof film, tightly sealed. Storage should be cool and ventilated, moisture-proof and heat-proof. It is used for flame retardant of plastics, rubber, coatings and other materials, in line with international standards such as ROHS and REACH, with stable chemical properties and is widely used in all walks of life.
Preparation Method
Using pentaerythritol as raw material, the mixed phosphorus is derived from a suitable solvent, and it is stirred slowly to make it uniformly dissolved. Then polyphosphoric acid is used as a nucleophilic reagent, and it is slowly added dropwise to the system. The temperature is maintained at about 180 degrees Celsius, so that the reaction is complete. Central esterification, mixed with a dehydrating agent, makes the water evaporate with heat. Then metal ions such as antimony or zinc are used as catalysts to promote the formation of phosphorus ester bonds. The catalytic mechanism is through the activation of the hydroxyl site to increase the reaction rate. The pH and temperature need to be strictly controlled throughout the process, so that the side reaction cannot afford. The unesterified residue is evaporated in a thin film in a timely manner, and a white solid, namely Mflam Di-Penta flame retardant, is precipitated after cooling. Its structure is stable, and phosph
Chemical Reactions & Modifications
Mflam Di-Penta is a flame retardant material based on dipentaerythritol, which is pure in nature and resembles white crystals. Its chemical reaction mostly involves the interaction of hydroxyl groups with halogens and phosphorus compounds to form phosphorus-based or halogen-phosphorus synergistic structures, which increases its flame retardancy. When blended with polymer, hydroxyl groups can form chemical bonds to improve the thermal stability and flame retardancy of the material. The way of modification is to introduce phosphorus and nitrogen elements through esterification and etherification reactions to enhance the carbonization efficiency of the material and inhibit the formation of volatile flammables during combustion. Adding the product to the thermoplastic resin or epoxy system can not only give good flame retardant effect, but also reduce the damage to the mechanical properties of the substrate. This product has a mild chemical reaction and can be used with a variety of additives to meet diverse industrial needs. It is a good choice for flame retardant modification.
Synonyms & Product Names
For example, there are things in flame retardants called Dipentaerythritol, which has many names, or dipentaerythritol, or dipentaerythritol, or dipentaerythritol, the British call it Dipenta, Di-Penta, chemical number C10H22O7, because it is used for flame retardant, the Western trademark is mostly called Flame Retardant Mflam Di-Penta, or abbreviated Mflam Di-Penta. It is a white crystal, which is widely used in papermaking, plastics, paints, and adhesives. Although the name refers to the same kind, between trade exchanges, it is necessary to identify its different names and identify its commodity names. Purchase in the market, or encounter "flame retardant dipentaerythritol", or encounter "Mflam Dipentaerythritol", its nature and use are the same. Scholars should identify its synonyms and trade names, so that the purchase and sale are undoubtedly clear, and the documents are clear.
Safety & Operational Standards
Flame Retardant Dipentaerythritol Mflam Di-Penta is for flame retardant use. Although it has good performance, its properties are quite special. Any craftsman who will use this product in a factory or workshop must first understand its temperament. It is easy to release harmful smoke in case of fire, and it may hurt the lungs if inhaled. It can cause disease if ingested or touched on the skin. It should be treated with caution. Prepare protective equipment, including gloves, masks, goggles, and closed seams on clothes to prevent dust from soaking the skin. The utensils must be clean to prevent other things from being mixed to prevent reactions. Dress tightly to prevent leakage; store in a ventilated and dry place, do not be adjacent to acid-base oils and strong oxidants; avoid exposure to the sun and high temperature, and far fire and far electricity are the top. When allocating, the force should be light to prevent dust from rising; after a small amount of subcontracting is completed, the mouth must be tightened in time. After work, it is advisable to clean your hands and wash them with flowing water. If it enters the eye by mistake, it should be rinsed with water as soon as possible, and if it is heavy, seek medical attention as soon as possible. If you take it or inhale it by mistake, leave the scene immediately, fresh the air, and send it to a doctor for consultation urgently. Every warning sign in the factory states the precautions, and the operation process should not be changed without permission. When handing over shifts, records must be kept to track down accidents. Waste materials should be sent to a special place for burning or deep burial in accordance with environmental protection regulations. Emergency steps are often practiced in the factory. In case of leakage, special adsorption materials are used. The dust and residue should be swept away and stored in a sealed bag, and it should not be initialized with water to avoid The air supply and exhaust equipment should be checked in good condition on a daily basis to maintain air circulation. Operators must undergo special training and memorize the details of the specifications. Managers should observe the state of the equipment in the near future and cultivate a sense of caution among the public. Although chemical products put profit first, they are safe and secure. If the norms are observed, disasters can be prevented before they occur, and they will last for a long time.
Application Area
Flame Retardant Dipentaerythritol Mflam Di-Penta has stable properties and is known as a flame retardant material. It is widely used in plastics, rubber, coatings, adhesives and other processes. With its high-efficiency flame retardant ability, all polyurethane foams, epoxy resins, acrylic resins, thermoplastics and thermosetting materials can benefit. It can also be compatible with phosphorus and nitrogen flame retardants to play a high-efficiency and safe effect. Electronic component shells, building materials inner and outer walls, textile coatings, or fireproof doors and windows, vehicle interiors, etc., all rely on its stability. Household appliances, transportation facilities, mid-to-high-end manufacturing, or places that require flame resistance and fire resistance, are not respected. Its solubility is good, and it is evenly dispersed. It can be easily added during the production process to maintain the physical properties of the product. The wide application field is indispensable for modern industry.
Research & Development
In the past, the craftsmanship was changing day by day, and the fire disaster was a disaster, and many utensils were killed. It is a sage who has worked hard to treat, and his heart is on flame retardant techniques. Those covered with Dipentaerythritol are chemically stable, resistant to high temperature and not easy to destroy. The researcher took its essence and made it into a product of Mflam Di-Penta, which added wings to flame retardancy. Its body is white and delicate, easily soluble in a variety of resins, and can be used in combination with other flame retardants to synergize and significantly reduce the speed of fire spread. The way of research and development is only fine and sincere. Technicians study day and night, and repeatedly try its melting and hot cracking, and test its harmful gas precipitation. Safety is the top priority. We also borrow advanced instruments to analyze its mechanism and strive to achieve both flame retardancy and environmental protection. Mflam Di-Penta is widely used in plastics and coatings, benefiting the world.
Toxicity Research
Mflam Di-Penta is a new type of flame retardant, called Dipentaerythritol. Its quality is white, soluble in water without odor. It is used in modern workers and is widely used in plastics, paints and electronic devices. However, its toxicity should not be ignored. Examining its experiment, high doses given to mice showed little warning signs of neural inhibition and liver and kidney load. Long-term exposure may cause cell damage, and metabolic enzyme activities change slightly. However, conventional dosage, toxic reactions are quite small, and no acute mortality has been seen. Human contact occasionally causes mild skin irritation, and respiratory intake can also involve the respiratory tract. Experiments have shown that if the concentration in the environment is limited, the harm is not obvious. However, excessive or even long-term exposure may accumulate, or there is a potential risk of chronic damage. Therefore, when applying, it is advisable to exercise caution and maintain the well-being of the operator and the environment.
Future Prospects
Mflam Di-Penta is a treasure of a new generation of flame retardant materials, with excellent quality and efficiency, and is widely adopted by the industry. It is based on dipentaerythritol, with stable structure, high temperature resistance, and flame retardant in case of fire. Today's technology is changing with each passing day, environmental protection regulations are becoming more and more strict, and the market needs more and more efficient and green flame retardant products. Looking to the future, Mflam Di-Penta will be widely used in plastics, coatings, electronics, and building materials with the development of new materials and the expansion of energy fields. Its flame retardant performance is excellent, and it is both low-toxic and harmless, which is in line with the way of sustainable development. With advanced research and development, if combined with nanotechnology and bio-based materials, it may usher in a new era of flame retardants. Due to Mflam Di-Penta's position in the global flame retardant industry, it has become increasingly consolidated, and its market prospects are as bright as a galaxy.
Where to Buy Flame Retardant Dipentaerythritol Mflam Di-Penta in China?
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As a leading Flame Retardant Dipentaerythritol Mflam Di-Penta 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 Flame Retardant Dipentaerythritol Mflam Di-Penta?
Mflam Di-Penta is a flame retardant of dipentaerythritol. Its stability, high temperature resistance, insoluble in water, widely used in a variety of processes. Its application fields can be divided into the following ends.
In plastic manufacturing, it is used as a flame retardant additive, mixed with synthetic polymers such as polyvinyl chloride, polyethylene and polypropylene. The nature of plastic materials makes them flammable in case of fire. If there is no prevention, it will cause human life in distress. Mflam Di-Penta is included in it, and forms a carbonized layer in case of high temperature, which effectively isolates oxygen and slows down combustion. Therefore, it is widely used in wires, cables, and household appliance shells, and its impact is particularly significant.
Secondly, coatings and paints can also be used. If this flame retardant is infiltrated into wood furniture and architectural coatings, it can not only protect the appearance of the original color, but also prevent the spread of fire, and effectively increase the living space. It is particularly important in the construction field. And fire doors, windows, walls and other equipment in construction projects, this is often used.
Also in the rubber industry, it is often used together with natural rubber and synthetic rubber. Automobile tires, conveyor belts and seals, etc., are close to fire sources and need to prevent spontaneous combustion. Mflam Di-Penta is integrated into it to strengthen the flame suppression efficiency of rubber, improve durability, and adapt to harsh environments.
Paper processing also depends on this. Such as copying paper, building materials paper, or paper that requires special flame retardant requirements, Mflam Di-Penta can be added, which does not change the nature of the paper, but can greatly improve fire safety. This move has been the focus of fire protection regulations.
In addition, the fiber and fabric industry, fire-resistant clothing, curtains, carpets, etc., can adopt Mflam Di-Penta as a flame retardant adjuvant, so that fabrics are not easy to burn in case of fire, and are widely trusted.
In summary, Mflam Di-Penta is widely used in plastics, coatings, rubber, paper products, and fibers. It is also an important material for contemporary flame retardant technology.
In plastic manufacturing, it is used as a flame retardant additive, mixed with synthetic polymers such as polyvinyl chloride, polyethylene and polypropylene. The nature of plastic materials makes them flammable in case of fire. If there is no prevention, it will cause human life in distress. Mflam Di-Penta is included in it, and forms a carbonized layer in case of high temperature, which effectively isolates oxygen and slows down combustion. Therefore, it is widely used in wires, cables, and household appliance shells, and its impact is particularly significant.
Secondly, coatings and paints can also be used. If this flame retardant is infiltrated into wood furniture and architectural coatings, it can not only protect the appearance of the original color, but also prevent the spread of fire, and effectively increase the living space. It is particularly important in the construction field. And fire doors, windows, walls and other equipment in construction projects, this is often used.
Also in the rubber industry, it is often used together with natural rubber and synthetic rubber. Automobile tires, conveyor belts and seals, etc., are close to fire sources and need to prevent spontaneous combustion. Mflam Di-Penta is integrated into it to strengthen the flame suppression efficiency of rubber, improve durability, and adapt to harsh environments.
Paper processing also depends on this. Such as copying paper, building materials paper, or paper that requires special flame retardant requirements, Mflam Di-Penta can be added, which does not change the nature of the paper, but can greatly improve fire safety. This move has been the focus of fire protection regulations.
In addition, the fiber and fabric industry, fire-resistant clothing, curtains, carpets, etc., can adopt Mflam Di-Penta as a flame retardant adjuvant, so that fabrics are not easy to burn in case of fire, and are widely trusted.
In summary, Mflam Di-Penta is widely used in plastics, coatings, rubber, paper products, and fibers. It is also an important material for contemporary flame retardant technology.
What is the addition ratio of Flame Retardant Dipentaerythritol Mflam Di-Penta?
However, it is said that Mflam Di-Penta, that is, bispentaerythritol for flame retardant, is an important flame retardant auxiliary in modern polymer materials. The proportion of its addition depends on the material properties, application scenarios, flame retardant standards and the differences in the matrix used, so it is not static. The method of its addition is described in detail, and its compatibility and efficiency are also discussed, so that scholars can follow it when using materials.
The amount of flame retardant depends on the type of substrate. If polyethylene, polypropylene and other general-purpose plastics, often need to be 3% to 8% of the whole system mass to reach the flame retardant level. If used in thermosetting polymers such as epoxy resins, according to demand, generally between 5% and 12% can be used. If it is used for building insulation materials or special cable jackets, or if the safety regulations meet the UL94 V-0 standard, the dosage can be increased by 15%. However, if it is coordinated with amine tripolyphosphate, methyl phosphonate, etc., the total amount of Mflam Di-Penta can be appropriately reduced, and the flame retardant effect is not lost.
The application method should first disperse Mflam Di-Penta evenly in the matrix or monomer to ensure that the particle distribution does not have obvious agglomeration. Stirring, melt mixing, extrusion or injection molding processes can be selected according to the material characteristics. The finer its dispersion and particle size, the better its flame retardant efficiency. The environmental and mechanical properties should also be weighed. In order to avoid excessive flame retardancy, the material will be brittle, or the color development and thermal stability will be poor, which will not meet the requirements of use.
In addition, Mflam DiPenta has good migration resistance and thermal stability. However, high load may also affect the rheological characteristics of the product processing. It is advisable to conduct a small test and pilot test first, and study the experimental data carefully to determine the most suitable ratio. If the process is appropriate and the dosage is appropriate, it can reduce the generation of smoke, inhibit the escape of harmful gases, and improve the effectiveness of safety protection. In short, the dosage of Mflam DiPenta is appropriate. Because of flame retardancy, it is necessary to clarify the properties of the material, to meet the needs of the end use, to review the data of multiple parties, and to weigh everything before making a judgment. All walks of life, it is advisable to follow the material manual and test results, and do not increase or decrease it without hesitation.
The amount of flame retardant depends on the type of substrate. If polyethylene, polypropylene and other general-purpose plastics, often need to be 3% to 8% of the whole system mass to reach the flame retardant level. If used in thermosetting polymers such as epoxy resins, according to demand, generally between 5% and 12% can be used. If it is used for building insulation materials or special cable jackets, or if the safety regulations meet the UL94 V-0 standard, the dosage can be increased by 15%. However, if it is coordinated with amine tripolyphosphate, methyl phosphonate, etc., the total amount of Mflam Di-Penta can be appropriately reduced, and the flame retardant effect is not lost.
The application method should first disperse Mflam Di-Penta evenly in the matrix or monomer to ensure that the particle distribution does not have obvious agglomeration. Stirring, melt mixing, extrusion or injection molding processes can be selected according to the material characteristics. The finer its dispersion and particle size, the better its flame retardant efficiency. The environmental and mechanical properties should also be weighed. In order to avoid excessive flame retardancy, the material will be brittle, or the color development and thermal stability will be poor, which will not meet the requirements of use.
In addition, Mflam DiPenta has good migration resistance and thermal stability. However, high load may also affect the rheological characteristics of the product processing. It is advisable to conduct a small test and pilot test first, and study the experimental data carefully to determine the most suitable ratio. If the process is appropriate and the dosage is appropriate, it can reduce the generation of smoke, inhibit the escape of harmful gases, and improve the effectiveness of safety protection. In short, the dosage of Mflam DiPenta is appropriate. Because of flame retardancy, it is necessary to clarify the properties of the material, to meet the needs of the end use, to review the data of multiple parties, and to weigh everything before making a judgment. All walks of life, it is advisable to follow the material manual and test results, and do not increase or decrease it without hesitation.
What is the environmental performance of Flame Retardant Dipentaerythritol Mflam Di-Penta?
Flame Retardant Dipentaerythritol Mflam Di-Penta is a new agent made by modern flame retardant technology. The main component is dipentaerythritol, which is synthesized by exquisite process. Its stability, high ignition point, can be widely used in a variety of polymer materials. To investigate its environmental performance, first discuss the source of raw materials, mostly taken from refining chemical processes, no toxic residues, easy to control quality. During the preparation process, the emission is low, the waste impurities are less, and there is little pollution to the atmosphere, water and soil.
In practical applications, it can effectively reduce the release of harmful gases during material combustion, such as hydrogen chloride and other gases commonly found in halogen system flame retardants. Mflam Di-Penta does not contain halogen, generates very few persistent organic pollutants during combustion, and can also reduce the formation of dioxins and furans. Furthermore, this substance is mainly carbonized in case of fire, and its carbon layer is dense, which isolates oxygen and inhibits the spread of fire, and the by-products have no environmental diseases such as heavy metals. When combined with phosphorus or nitrogen-containing flame retardants, there is no obvious synergistic pollution.
In terms of its biodegradability, the structure of dipentaerythritol is relatively stable. However, after long-term environmental action, it can eventually be gradually degraded into low-molecular organic acids and put into the natural cycle, which is not easy to cause persistent pollution. In the end-of-life stage, compared with conventional landfill treatment, Mflam Di-Penta precipitates slowly, has a lower risk of delayed leakage, and has little impact on the environmental ecosystem.
As for human health and safety, there is no high-risk warning of this agent in the European Union REACH and RoHS regulations. The product has low residues, and various biological tests have shown that it has little risk of mutagenicity, carcinogenicity and reproductive toxicity. Therefore, it is generally believed that if it is operated according to specifications, it does not pose a real threat to the safety of workers and downstream users.
In summary, Mflam Di-Penta has outstanding environmental performance among many flame retardants due to its halogen-free, low toxicity, low residue, and inability to generate persistent pollutants. If it is implemented in a wider range of fields, taking into account the optimization of its processes, it can be expected to make a positive contribution to the harmonious coexistence between humans and the natural environment.
In practical applications, it can effectively reduce the release of harmful gases during material combustion, such as hydrogen chloride and other gases commonly found in halogen system flame retardants. Mflam Di-Penta does not contain halogen, generates very few persistent organic pollutants during combustion, and can also reduce the formation of dioxins and furans. Furthermore, this substance is mainly carbonized in case of fire, and its carbon layer is dense, which isolates oxygen and inhibits the spread of fire, and the by-products have no environmental diseases such as heavy metals. When combined with phosphorus or nitrogen-containing flame retardants, there is no obvious synergistic pollution.
In terms of its biodegradability, the structure of dipentaerythritol is relatively stable. However, after long-term environmental action, it can eventually be gradually degraded into low-molecular organic acids and put into the natural cycle, which is not easy to cause persistent pollution. In the end-of-life stage, compared with conventional landfill treatment, Mflam Di-Penta precipitates slowly, has a lower risk of delayed leakage, and has little impact on the environmental ecosystem.
As for human health and safety, there is no high-risk warning of this agent in the European Union REACH and RoHS regulations. The product has low residues, and various biological tests have shown that it has little risk of mutagenicity, carcinogenicity and reproductive toxicity. Therefore, it is generally believed that if it is operated according to specifications, it does not pose a real threat to the safety of workers and downstream users.
In summary, Mflam Di-Penta has outstanding environmental performance among many flame retardants due to its halogen-free, low toxicity, low residue, and inability to generate persistent pollutants. If it is implemented in a wider range of fields, taking into account the optimization of its processes, it can be expected to make a positive contribution to the harmonious coexistence between humans and the natural environment.
Is Flame Retardant Dipentaerythritol Mflam Di-Penta compatible with common resin systems?
Mflam Di-Penta, a flame inhibitor with mild properties and delicate structure, is widely used in a variety of polymer materials. Looking at various common resin systems, such as epoxy resins, polyurethane, phenolic resins, alkyd resins and unsaturated polyesters, are widely relied on by industry for their excellent properties. Dipentaerythritol has a special polyhydroxyl group, which can interact with functional groups in the resin system to enhance blending and affinity. This substance has moderate solubility and is not easy to precipitate. It can be mixed in the resin solution and can be uniformly dispersed. Or through chemical bonding, it is integrated into the main chain or side chain of the resin to participate in the formation of the polymer network structure and enhance the physical and chemical properties of the system. Suitable for thermoplastic and thermosetting resins.
Dipentaerythritol can be used as a crosslinking agent in epoxy systems to help increase the crosslinking density, improve thermal stability and mechanical strength, and take into account the flame resistance effect. In unsaturated polyester resin systems, the flame retardant efficiency can be optimized without hindering the curing of the resin. In polyurethane systems, the polyhydroxyl structure participates in chain growth, which is conducive to the improvement of the overall performance of the foam. Phenolic and alkyd systems can also be accommodated to enhance heat resistance and toughness. The addition ratio should be adjusted according to the specific system. If it is too much, it may be melted and viscous, which will affect the flow and processing. If it is appropriate, it will not hinder the original function of the resin.
It must be carefully matched according to the processing conditions of different resins to avoid high temperature decomposition or adverse side reactions. If the formula can be scientifically designed, dipentaerythritol can be compatible with various resin systems, which not only serves as a good flame retardant, but also does not damage its own properties. Therefore, it is a feasible strategy to use this flame retardant in common resins. Only by coordinating various process conditions and synergistic additives to enhance the strengths and make up for the weaknesses can it be used infinitely.
Dipentaerythritol can be used as a crosslinking agent in epoxy systems to help increase the crosslinking density, improve thermal stability and mechanical strength, and take into account the flame resistance effect. In unsaturated polyester resin systems, the flame retardant efficiency can be optimized without hindering the curing of the resin. In polyurethane systems, the polyhydroxyl structure participates in chain growth, which is conducive to the improvement of the overall performance of the foam. Phenolic and alkyd systems can also be accommodated to enhance heat resistance and toughness. The addition ratio should be adjusted according to the specific system. If it is too much, it may be melted and viscous, which will affect the flow and processing. If it is appropriate, it will not hinder the original function of the resin.
It must be carefully matched according to the processing conditions of different resins to avoid high temperature decomposition or adverse side reactions. If the formula can be scientifically designed, dipentaerythritol can be compatible with various resin systems, which not only serves as a good flame retardant, but also does not damage its own properties. Therefore, it is a feasible strategy to use this flame retardant in common resins. Only by coordinating various process conditions and synergistic additives to enhance the strengths and make up for the weaknesses can it be used infinitely.
What are the storage conditions and shelf life of Flame Retardant Dipentaerythritol Mflam Di-Penta?
Mflam Di-Penta is the second pentaerythritol in the flame retardant, which is indispensable for chemical materials. Its properties are stable, but it should be stored according to the rules to ensure its quality. Store in a cool and ventilated place, avoid direct exposure to the hot sun, and avoid high temperature and humidity. The temperature should not exceed 30 degrees, and the humidity should not exceed 60%. The packaging should be strict, do not expose to the air, and do not let moisture invade. Use a sealed container, the material is plastic or galvanized iron cans, and it should not be stored with strong oxidants, strong acid and alkali and other chemicals, for fear of changes. When migrating and handling, it should be handled with care, so as not to cause collision damage, so as not to disturb its properties. The storage place should be far away from the heat source of fire, and should not be in a warehouse with fire protection management.
Its shelf life, if the storage rules are strictly followed, can often reach three years if it is unopened. Unseal within the period, and never use it up in time. If you open the mouth and re-seal, make sure that it is tightly sealed to prevent moisture and odor contamination. If it expires, check it slightly depending on the storage conditions. If the smell of the colored soap is no different and the properties remain unchanged, it can still be used as appropriate, otherwise it should not be used again. During the storage process, it is often necessary to inspect and detect moisture, agglomeration, and peculiar color and odor, which indicates damage and should be removed in time.
Therefore, store Mflam Di-Penta, the first heavy is ventilated and cool, and sealed to prevent moisture. For a period of three years, the most important thing is to abide by the storage law. The integrity of packaging, the cleanliness of the environment, and daily investigation should not be ignored. Following these laws can ensure its effectiveness and prolong its lifespan, which is the essence of chemical storage.
Its shelf life, if the storage rules are strictly followed, can often reach three years if it is unopened. Unseal within the period, and never use it up in time. If you open the mouth and re-seal, make sure that it is tightly sealed to prevent moisture and odor contamination. If it expires, check it slightly depending on the storage conditions. If the smell of the colored soap is no different and the properties remain unchanged, it can still be used as appropriate, otherwise it should not be used again. During the storage process, it is often necessary to inspect and detect moisture, agglomeration, and peculiar color and odor, which indicates damage and should be removed in time.
Therefore, store Mflam Di-Penta, the first heavy is ventilated and cool, and sealed to prevent moisture. For a period of three years, the most important thing is to abide by the storage law. The integrity of packaging, the cleanliness of the environment, and daily investigation should not be ignored. Following these laws can ensure its effectiveness and prolong its lifespan, which is the essence of chemical storage.
