Aluminum Diethylphosphinate Flame Retardant Mflam LX-15
| HS Code | 799528 |
| Chemical Formula | C4H12AlO2P |
| Appearance | White powder |
| Molecular Weight | 150.10 g/mol |
| Melting Point | 280 - 290 °C |
| Decomposition Temperature | ≥300 °C |
| Density | 1.34 g/cm³ |
| Solubility | Insoluble in water, soluble in some polar organic solvents |
| Flame Retardant Mechanism | Gas - phase and condensed - phase flame retardancy |
| Thermal Stability | Good thermal stability |
| Halogen Free | Yes |
| Smoke Suppression | Effective smoke - suppression ability |
| Application Field | Widely used in engineering plastics, such as polyamide, polyester |
As an accredited Aluminum Diethylphosphinate Flame Retardant Mflam LX-15 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Aluminum Diethylphosphinate Mflam LX - 15: 25 - kg bags for flame retardant packaging. |
| Storage | Aluminum Diethylphosphinate Flame Retardant Mflam LX - 15 should be stored in a cool, dry place. Keep it away from sources of heat, ignition, and direct sunlight. Store in a well - ventilated area, away from incompatible substances like strong oxidizers. Use tightly - sealed containers to prevent moisture absorption and ensure product integrity over time. |
| Shipping | Aluminum Diethylphosphinate Flame Retardant Mflam LX - 15 is shipped in well - sealed containers, compliant with chemical transportation regulations. Care is taken to prevent exposure, with proper handling to avoid damage during transit. |
Competitive Aluminum Diethylphosphinate Flame Retardant Mflam LX-15 prices that fit your budget—flexible terms and customized quotes for every order.
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Historical Development
Aluminum diethyl phosphonate flame retardant Mflam LX-15 was first developed at the end of the twentieth century to meet the needs of science and technology and industry. In the past, flame retardant materials relied on halogen compounds, but its environmental protection was lost, and it gradually became the world's criticism. Later scholars dedicated themselves to research, based on phosphonate, and committed themselves to innovation, resulting in Mflam LX-15. Its generation has the synergistic effect of aluminum element and organic phosphine, which significantly improves the fire resistance and is suitable for polymer resin products. So far, it has been widely used in electronics, building materials and other fields, not only to ensure safety, but also to meet the sustainable way. After decades of evolution, the technology has become increasingly pure and the performance has been continuously optimized, making it a leader in flame retardants.
Product Overview
Aluminium diethyl phosphonate flame retardant Mflam LX-15 is a new type of highly efficient flame retardant material. Its properties are white powder with a slight fishy smell, which is easy to disperse in many polymer resins. Its main component, aluminium diethyl phosphonate, is non-flammable in case of fire, and can be decomposed into flame retardant phosphate and alumina. It has the effect of smoke suppression and thermal stability. It is suitable for engineering plastics, electronic devices, fibers and coatings. Applied to nylon, polyester, polyolefin and thermoplastic elastomer, it can significantly improve the flame retardant grade of the material and does not contradict the performance of the finished product. This agent is halogen-free and low-toxicity, complies with environmental regulations, and does not corrode equipment. It is a green and safe choice. It is easy to add, requires no special procedures, and is widely respected by the industry.
Physical & Chemical Properties
Mflam LX-15, named aluminum diethyl phosphonate, is a white powder with a slightly shiny form. It dissolves in very few solvents, but it is difficult to dissolve in water and common organic solutions, and its properties are very stable. Its density is about 2 grams per cubic centimeter, the particle size is fine, and the dispersion is good. It is not easy to agglomerate when wet, and decomposes when heated. The decomposition temperature is more than 300 degrees high, and there is a slight phosphine gas escape. It is non-flammable. It has mild chemical properties and does not react violently with air and water at room temperature. In case of strong acid and alkali, it is slightly soluble, but its stability is better than that of general organic flame retardants. Its thermal stability is particularly well-suited for flame retardant applications of engineering plastics and polymer materials. Halogen-free, low smoke, fire refractory, effectively curb the spread of combustion potential, no toxic gas precipitation, environmental protection and safety.
Technical Specifications & Labeling
The name of this product is aluminum-based diethylphosphonate flame retardant, code Mflam LX-15, the appearance is white powder, no obvious odor. Its molecular formula is C4H10AlO4P, and the molecular weight is about 204. The aluminum content is about 24-26%, the phosphorus content is about 20-22%, the fineness is D50 ≤ 15 microns, and the moisture content does not exceed 0.5%. The decomposition temperature is higher than 320 degrees Celsius, and the flame retardant effect is remarkable. Soluble in acid, difficult to dissolve in water, and chemically stable. Widely used in plastics, rubber and other polymeric materials, it can improve the flame resistance of materials, reduce smoke escape, and has the advantage of environmental protection. The packaging is multi-lined with plastic bags and covered with woven bags, with a net weight of 25 kg per bag. It should be stored in a cool and dry place to prevent moisture and avoid the mixing of strong acid and alkali.
Preparation Method
Triethylphosphine and aluminum hypophosphite are used as raw materials to synthesize aluminum-diethylphosphonate flame inhibitor Mflam LX-15. The process involves first taking triethylphosphine into an inert gas, adding aluminum hypophosphite at a temperature suitable for control at medium temperature to prevent side reactions from interfering. At the beginning of the reaction, phosphine and aluminum hypophosphite begin to transfer, and C ² H groups are precipitated from phosphine to derive diethylphosphonate. After stirring evenly, the intermediate is fully analyzed, and then heated at a constant temperature to promote its conversion into a stable aluminum salt flame inhibitor. Weak bases are used in catalysis to help electron clouds migrate and enhance the reaction rate. After cooking for a long time, Mflam LX-15 is crystallized and precipitated, and the obtained product is filtered out after cooling. The product obtained by this method has high purity and is suitable for industrial mass synthesis, which is widely used in the field of flame retardant polymer materials.
Chemical Reactions & Modifications
The aluminum diethylphosphonate, Mflam LX-15, is a new flame retardant material with particularly excellent properties. Its essence is organic phosphine complexed aluminum ionization, and its molecular structure is unique. In case of fire, phosphonic acid groups are released. After high temperature cracking, phosphoric acid and non-volatile aluminum salts are formed, which can promote carbonation on the surface of the substrate to form a dense carbon layer to isolate heat intrusion and gas escape. If blended with the polymer, it can be chemically reacted through surface hydroxyl or carboxyl functional groups, or grafted and modified, embedded in the main chain or side chain, so that the flame retardant efficiency is better. At the same time, its particles are evenly distributed, highly compatible with polymer resins, and can adjust viscosity and rheology. If a synergist is added, such as melamine or quaternary phosphonate, the flame retardant performance is more significant. From this point of view, LX-15 goes hand in hand with chemical reaction and modification, maintaining the cornerstone of performance and expanding the wide area of the industry.
Synonyms & Product Names
Aluminum diethyl phosphonate flame retardant, or Mflam LX-15, is commonly used in the world and has many names, which actually refers to the same thing. Its synonyms, such as diethyl aluminum phosphate, diethyl aluminum phosphate, and diethyl aluminum phosphate, are all renamed by chemical properties and have the same name. In trade, see the words ALDEPA, Aluminum Phosphinate Flame Retardant, etc., which refer to this kind of high-efficiency flame retardant product. Or it can be labeled as a flame retardant for plastics, an environmentally friendly halogen-free flame retardant additive, and its uses and environmental advantages are detailed. However, the common names of the products are Maxflam LX-15, Mflam LX-15 or LX-15, which are all marked by the manufacturer's name, or vary by series. Although the names are numerous, they are essentially attributed to the new halogen-free flame retardants of aluminum phosphonates, which are used to improve the flame resistance of polymers and are widely applied to polymer materials such as ABS and PP. It is clear that they are similar and different, and they are consistent with their background and background.
Safety & Operational Standards
Mflam LX-15, is also an aluminum diethyl phosphonate flame retardant. Its properties are white and fine powder, no obvious odor, and excellent fire protection effect. Follow the safety and operation rules. Use utility gloves, wear goggles and masks to prevent the skin and respiratory tract from being disturbed by its dust, and do not contact with bare hands. Storage must be strict, stored in a cool, dry and ventilated place, away from fire heat sources, do not be exposed to sun and rain, and prevent moisture and agglomeration. Do not mix with strong acids, strong alkalis, and flammable and explosive products. After unsealing, use it immediately. If there is any remaining, it should be sealed and stored. It should be handled with care during loading, unloading and handling to prevent damage and leakage of utensils. If there is any spill, clean it slowly with a vacuum cleaner immediately, and it is strictly forbidden to dust with a broom. The construction site should be equipped with eye washers and emergency sprays to prevent unexpected needs. The operating place is well ventilated, and dust should be cleaned regularly to prevent accumulation and disaster. In case of fire, do not use water directly, but use dry powder, carbon dioxide or sand to flush on the ground, and evacuate unrelated personnel. If it accidentally enters the eyes or touches the skin, rinse with water urgently, or seek medical attention quickly. Packaging utensils should be specially stored. It is strictly forbidden to dispose of waste products and empty packages at will, and dispose of them according to emergency measures. Operators must be trained to understand their hazards and specifications. After the storage period expires, check the performance to avoid product deterioration and failure. Remember to be careful at all times, operate properly, and ensure the safety of personnel. Production is worry-free, and the income is safe and effective, benefiting all workers.
Application Area
Aluminum diethyl phosphonate flame retardant Mflam LX-15 has stable properties and wide application. It can withstand high temperature, and has the advantages of low smoke and halogen-free. It is suitable for plastic materials of electronics and electrical appliances, such as polyamide, polyester and other engineering resins. It is used in cable sheaths, connectors, switches, etc., all rely on its flame retardant effect. It can also be combined and modified, and is used in transportation equipment, building materials, trims and thermal insulation places to help them be safe. When heated, it decomposes and releases phosphonates, inhibits the spread of flames, and protects the device. It is widely compatible and can be used in combination with many polymers without compromising its mechanical strength. It is the best choice for research and development of new materials, especially in the field of strict environmental protection requirements. It is an indispensable material for modern industrial and civil security in many fields.
Research & Development
The aluminum diethyl phosphonate flame retardant Mflam LX-15 is a new innovation in modern science and technology. It originated from scientists' painstaking research, exploiting the wonders of organic phosphine compounds and aluminum salts, and fusing exquisite processes, trying to create a new situation in the field of flame-retardant materials. Since the initial trial, it has undergone countless experiments to analyze its thermal stability and decomposition mechanism, and is committed to performance optimization, improving flame retardant efficiency and taking into account environmental protection. During the research and development process, its compatibility with polyester, polyamide and other polymer substrates was carefully studied, and dispersion methods were studied in order to achieve a balance between flame retardancy, mechanical properties and processability. The results show that LX-15 is effective in improving the flame resistance of materials, reducing tobacco toxicity and environmental burden. Today, its application is extensive and widely recognized by the industry. The success of Sri Lanka's products is due to the intensive research of countless researchers, which is a good proof of material science and industrial development.
Toxicity Research
Aluminium diethyl phosphonate flame retardant Mflam LX-15, a new chemical material, is widely used in plastic additives to increase flame retardancy. Its toxicity is quite doubtful, so modern scholars have investigated it. In mice as an experiment, if a small amount is ingested orally, there is no toxic reaction in a short time; if it is high for a long time, it may see slight liver and kidney function differences, but it is not fatal. After inhalation, if the dust particles are fine, it is easy to cause mild irritation of the respiratory tract. At the cellular level, in vitro experiments have observed that it has no obvious inhibition on the proliferation of human cells, and cell morphology is rarely abnormal. However, in case of high doses, when the water environment is polluted, it may have toxic effects on aquatic organisms. In summary, Mflam LX-15 is less toxic to humans under standard dosage, but the protection cannot be wasted. Caution should also be taken in storage and transportation to reduce environmental load and potential harm.
Future Prospects
Aluminum diethylphosphonate flame retardant Mflam LX-15 has excellent performance and is widely used. It can be used in polymer materials to endow flame retardancy, ensure the safety of materials, and pose a hidden danger to fire hazards. Nowadays, materials science is changing with each passing day, and green environmental protection has become the mainstream. Mflam LX-15 has the characteristics of low smoke, low toxicity, and halogen-free, which meets the needs of the times. It will become more and more prosperous with the implementation of environmental protection policies. In the future, technological progress will definitely promote its performance to the next level, or it will cooperate with nanotechnology and new composite materials to be more widely integrated into many fields such as electronics, transportation, and construction to cope with increasingly severe safety and environmental protection challenges. New uses and new markets are in the ascendant, and Mflam LX-15 has a promising future. It will eventually benefit society and escort human beings to live and work in peace and contentment.
Where to Buy Aluminum Diethylphosphinate Flame Retardant Mflam LX-15 in China?
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What are the main application fields of Aluminum Diethylphosphate Flame Retardant Mflam LX-15?
The aluminum-based ethylphosphonate flame retardant Mflam LX-15 has an exquisite structure and is an important product for fire protection of contemporary polymer materials. Mflam LX-15 is hard white, has no fixed taste, is difficult to dissolve in water, has excellent thermal stability, and has the virtue of environmental protection. In today's products, fire protection is the most important thing, and this agent is particularly well selected. Its application range is wide, as detailed in the left:
1. In the field of engineering plastics, it is its primary use. Common are polyamide (PA), polycarbonate (PC), polyethylene terephthalate (PBT), polyethylene terephthalate (PET), etc. Strawberry plastics are more common in transportation, electronics, and machinery. It can effectively improve the fire resistance of materials without compromising their mechanical properties, and is widely used in automotive parts, electronic shells, etc.
Second, it is especially used in the electronic and electrical industry. Household appliances, computers, switch sockets, cable sheaths, etc. who have concerns about safety, use Mflam LX-15 as a flame retardant agent. Its high thermal stability, not easy to volatilize, less smoke loss in case of combustion, no harmful gas, won the trust of the industry. With this, it can ensure the long-term use of electrical appliances and help protect the safety of the home.
Third, it can also be seen in the field of copper clad panels and epoxy resin materials. Modern printed circuit boards need to be both flame retardant and fire-resistant. Mflam LX-15 is compatible with various resins to give the product good flame retardant performance without damaging physical properties. In the information society, facilities are new, and the amount of flame retardant materials is increasing, which is a great help.
Fourth, among fibers and fabrics, it also has its applications. It is mainly based on flame retardant modified fibers, industrial filter cloth, decorative cloth in public places, etc. The user has the effect of anti-flame and flame retardant, and then with the post-finishing process, it can be kept safe.
Fifth, other polymer composite materials, up to aerospace, down and transportation furniture, where high flame retardant standards, Mflam LX-15 can be added as appropriate to meet demand. Its halogen-free and non-toxic properties are especially in line with modern environmental protection concepts.
It is used in Mflam LX-15 and has been used in various industries, especially in the fields of high-tech and public safety. It is not only for personal safety, but also for the Green New Deal, and is sincerely the best flame retardant product in the new era.
1. In the field of engineering plastics, it is its primary use. Common are polyamide (PA), polycarbonate (PC), polyethylene terephthalate (PBT), polyethylene terephthalate (PET), etc. Strawberry plastics are more common in transportation, electronics, and machinery. It can effectively improve the fire resistance of materials without compromising their mechanical properties, and is widely used in automotive parts, electronic shells, etc.
Second, it is especially used in the electronic and electrical industry. Household appliances, computers, switch sockets, cable sheaths, etc. who have concerns about safety, use Mflam LX-15 as a flame retardant agent. Its high thermal stability, not easy to volatilize, less smoke loss in case of combustion, no harmful gas, won the trust of the industry. With this, it can ensure the long-term use of electrical appliances and help protect the safety of the home.
Third, it can also be seen in the field of copper clad panels and epoxy resin materials. Modern printed circuit boards need to be both flame retardant and fire-resistant. Mflam LX-15 is compatible with various resins to give the product good flame retardant performance without damaging physical properties. In the information society, facilities are new, and the amount of flame retardant materials is increasing, which is a great help.
Fourth, among fibers and fabrics, it also has its applications. It is mainly based on flame retardant modified fibers, industrial filter cloth, decorative cloth in public places, etc. The user has the effect of anti-flame and flame retardant, and then with the post-finishing process, it can be kept safe.
Fifth, other polymer composite materials, up to aerospace, down and transportation furniture, where high flame retardant standards, Mflam LX-15 can be added as appropriate to meet demand. Its halogen-free and non-toxic properties are especially in line with modern environmental protection concepts.
It is used in Mflam LX-15 and has been used in various industries, especially in the fields of high-tech and public safety. It is not only for personal safety, but also for the Green New Deal, and is sincerely the best flame retardant product in the new era.
What is the usual amount of Aluminum Diethylphosphate Flame Retardant Mflam LX-15?
Aluminum diethyl phosphonate flame retardant Mflam LX-15 is used in polymer materials, especially thermoplastic resins such as polyamides and polyesters. Its function is to improve the flame retardancy of the material, while taking into account the physical properties of the material, so that it will not be significantly deteriorated due to the addition of flame retardants. However, the amount of flame retardant depends on the specific material system, the required flame retardant grade of the finished product, the processing technology and performance requirements, and must be carefully considered.
In common applications, if the main materials are polyamide 6, polyamide 66, etc., to reach UL 94 V-0 grade, the addition amount of Mflam LX-15 is mostly between 15% and 20%. If only V-2 or V-1 grade is required, it can be slightly reduced, or 10% to 15%. In the use of polyesters such as PBT and PET, the required dosage is also roughly the same.
In addition to the dosage, it is necessary to prepare synergistic additives. Such as montmorillonite, antimony trioxide or calcium carbonate, etc., can be combined with LX-15 to optimize its flame retardant performance and improve processability. However, if the total amount is too high, the mechanical properties of the matrix will be reduced, and the hue and fluidity may be damaged. Therefore, in engineering applications, 15% to 18% is often used as the conventional reference dosage, taking into account the combustion performance and comprehensive physical properties.
At the time of formulation design, it is still necessary to check the thickness of the finished product, the type and content of fillers, the processing temperature and the end use of the product. If the thickness of the product is large, or the halogen-free flame retardant system is used in combination, the aluminum diethylphosphonate can be appropriately reduced; on the contrary, if the thickness is thin, it can also be adjusted as appropriate in order to pass. Therefore, although the conventional reference addition amount of Mflam LX-15 is 15% to 20%, it must be flexibly adjusted according to the specific formula and performance test results of the product. From a reasonable perspective, in order to achieve the ideal flame retardant and performance balance, experience and test should not be ignored. If it is good to use it.
In common applications, if the main materials are polyamide 6, polyamide 66, etc., to reach UL 94 V-0 grade, the addition amount of Mflam LX-15 is mostly between 15% and 20%. If only V-2 or V-1 grade is required, it can be slightly reduced, or 10% to 15%. In the use of polyesters such as PBT and PET, the required dosage is also roughly the same.
In addition to the dosage, it is necessary to prepare synergistic additives. Such as montmorillonite, antimony trioxide or calcium carbonate, etc., can be combined with LX-15 to optimize its flame retardant performance and improve processability. However, if the total amount is too high, the mechanical properties of the matrix will be reduced, and the hue and fluidity may be damaged. Therefore, in engineering applications, 15% to 18% is often used as the conventional reference dosage, taking into account the combustion performance and comprehensive physical properties.
At the time of formulation design, it is still necessary to check the thickness of the finished product, the type and content of fillers, the processing temperature and the end use of the product. If the thickness of the product is large, or the halogen-free flame retardant system is used in combination, the aluminum diethylphosphonate can be appropriately reduced; on the contrary, if the thickness is thin, it can also be adjusted as appropriate in order to pass. Therefore, although the conventional reference addition amount of Mflam LX-15 is 15% to 20%, it must be flexibly adjusted according to the specific formula and performance test results of the product. From a reasonable perspective, in order to achieve the ideal flame retardant and performance balance, experience and test should not be ignored. If it is good to use it.
What is the heat resistance temperature of Aluminum Diethylphosphinate Flame Retardant Mflam LX-15?
Diethylphosphonic acid is flame retardant and Mflam LX-15, its properties are not good, and it is often used in polymer materials to increase its flame retardant effect. According to its research, diethylphosphonic acid, its properties are determined, and its decomposition degree exceeds 300 degrees Celsius. It is not easy to decompose when it is exposed to high temperatures in air, so it is mostly used in grease such as nitric oxide, polycarbonate, and polyester. Its resistance is particularly outstanding. Only when it is stored with high resistance can it be used in the heat of the fire to ensure the safety of the material.
Mflam LX-15 has a resistance to resistance, generally about 320 degrees Celsius. Under normal conditions, its flame retardancy and physical properties can be improved beyond 300 degrees Celsius; if it exceeds this limit, it is susceptible to damage, and the decomposition material will be precipitated, which will affect the original properties of the material. With this characteristic, LX-15 composite engineering plastics are shared together with normal molding degrees (usually not exceeding 300 degrees Celsius), and can still maintain the integrity of their molecules during the processing process. It is not easy to fail when used in high-end environments.
The use of flame retardancy requires its performance to be determined. It is not necessary to resist the intrusion of fire, but also to withstand high temperature, so as not to cause safety problems due to decomposition. Mflam LX-15 is especially good at 200 degrees to 320 degrees. If it rises beyond 320 degrees, its decomposition will be beneficial. Therefore, in the case of general use, the temperature should be controlled below its tolerance limit in order to ensure its efficacy as before.
Its performance, Mflam LX-15 is suitable at 320 degrees, which is enough to meet the needs of engineering, and can also ensure the safety and health of materials. It is also a good product in flame retardancy.
Mflam LX-15 has a resistance to resistance, generally about 320 degrees Celsius. Under normal conditions, its flame retardancy and physical properties can be improved beyond 300 degrees Celsius; if it exceeds this limit, it is susceptible to damage, and the decomposition material will be precipitated, which will affect the original properties of the material. With this characteristic, LX-15 composite engineering plastics are shared together with normal molding degrees (usually not exceeding 300 degrees Celsius), and can still maintain the integrity of their molecules during the processing process. It is not easy to fail when used in high-end environments.
The use of flame retardancy requires its performance to be determined. It is not necessary to resist the intrusion of fire, but also to withstand high temperature, so as not to cause safety problems due to decomposition. Mflam LX-15 is especially good at 200 degrees to 320 degrees. If it rises beyond 320 degrees, its decomposition will be beneficial. Therefore, in the case of general use, the temperature should be controlled below its tolerance limit in order to ensure its efficacy as before.
Its performance, Mflam LX-15 is suitable at 320 degrees, which is enough to meet the needs of engineering, and can also ensure the safety and health of materials. It is also a good product in flame retardancy.
Does Aluminum Diethylphosphate Flame Retardant Mflam LX-15 Affect the Mechanical Properties of Products?
Aluminium diethyl phosphonate flame retardant Mflam LX-15 is now frequently used in polymer materials to improve fire resistance. However, the inquiry and its impact on the mechanical properties of the product should be carefully investigated. The change of physical properties depends on taking into account fire protection and mechanics. Mflam LX-15 is applied to polymers. In fact, it is chemically or physically acting on the substrate to make the material difficult to burn. It is widely used in electronic components, building materials, and automotive parts. However, its implementation also increases or decreases the mechanical properties.
Its flame retardant mechanism lies in the formation of a protective layer during thermal decomposition, which isolates heat sources and oxygen on the surface of the material. This layer is both flame retardant and rigid, which improves the tensile, bending, and impact properties of the product. If the particles of Mflam LX-15 are dispersed in the polymer matrix, if they have good compatibility with it, they are not easy to weaken the mechanical properties due to interface problems. On the contrary, if they are unevenly dispersed and agglomerated into agglomerates, the internal stress of the material is easy to concentrate, which not only weakens its strength but also damages its ductility.
It has been reported in the literature that if the substrate is properly mixed, the mechanical properties decrease very little. If it is more stable than dispersion, the tensile, impact, and bending indexes can be maintained at a high level. However, if the amount of addition exceeds the standard, or the process is not good, the material becomes brittle, the elongation decreases, and the modulus may increase, and the overall mechanical properties will inevitably be damaged. In addition, the particles of the flame retardant itself are relatively rigid, which may also cause the interface to loosen and affect the integrity of the structure.
Overall, although the aluminum diethylphosphonate Mflam LX-15 imparts good flame retardancy to the material, the impact on the mechanical properties is related to its distribution uniformity, addition ratio and substrate compatibility. If the ratio is moderate and the dispersion is appropriate, the mechanical properties will have little impact. For polymer composites, a balance between flame retardancy and mechanics is desirable. However, when designing and applying, the amount of addition must be strictly controlled and the dispersion process optimized to avoid performance imbalance and harm.
Its flame retardant mechanism lies in the formation of a protective layer during thermal decomposition, which isolates heat sources and oxygen on the surface of the material. This layer is both flame retardant and rigid, which improves the tensile, bending, and impact properties of the product. If the particles of Mflam LX-15 are dispersed in the polymer matrix, if they have good compatibility with it, they are not easy to weaken the mechanical properties due to interface problems. On the contrary, if they are unevenly dispersed and agglomerated into agglomerates, the internal stress of the material is easy to concentrate, which not only weakens its strength but also damages its ductility.
It has been reported in the literature that if the substrate is properly mixed, the mechanical properties decrease very little. If it is more stable than dispersion, the tensile, impact, and bending indexes can be maintained at a high level. However, if the amount of addition exceeds the standard, or the process is not good, the material becomes brittle, the elongation decreases, and the modulus may increase, and the overall mechanical properties will inevitably be damaged. In addition, the particles of the flame retardant itself are relatively rigid, which may also cause the interface to loosen and affect the integrity of the structure.
Overall, although the aluminum diethylphosphonate Mflam LX-15 imparts good flame retardancy to the material, the impact on the mechanical properties is related to its distribution uniformity, addition ratio and substrate compatibility. If the ratio is moderate and the dispersion is appropriate, the mechanical properties will have little impact. For polymer composites, a balance between flame retardancy and mechanics is desirable. However, when designing and applying, the amount of addition must be strictly controlled and the dispersion process optimized to avoid performance imbalance and harm.
Does Aluminum Diethylphosphate Flame Retardant Mflam LX-15 meet environmental requirements such as RoHS?
Aluminium diethyl phosphonate flame retardant, known as Mflam LX-15, has a wide range of uses and is commonly used in plastics, rubber, electronics and other products to improve flame retardancy. Whether it meets environmental protection standards such as RoHS, its composition must be checked first, and then its restricted substances must be carefully examined.
Mflam LX-15 is mainly composed of aluminum salts and organophosphoric acids, with stable chemical properties. It does not contain lead, cadmium, mercury, hexavalent chromium and other metals, nor brominated flame retardants such as polybrominated biphenyls (PBB) and polybrominated diphenyl ethers (PBDE). It is one of the six restricted substances stipulated in the European Union's Restriction of Hazardous Substances Directive (the full name of RoHS), so that the limit is between 1/1000 and 0.1 parts per million. Please refer to its provisions for details. This flame retardant is not listed as one of the above six or other new substances subject to restriction. Even if its impurities are generally refined, it is not easy to exceed the limit set by RoHS. In recent years, manufacturers have mostly obtained test certificates and reports from relevant authoritative organizations, stating that they must not exceed the limits set by the directive, and each batch of products is still accompanied by test regulations.
Not only the RoHS directive, but also if referring to the REACH regulations, it has not been listed in the Substances of Very High Concern (SVHC) list. In common environmental testing items, such as halogen, heavy metal content, water-soluble harmful ions, etc., Mflam LX-15 can mostly pass the certification of relevant third-party laboratories. The reason is that the structure is elegant, no dangerous groups are contained, and no highly toxic gas escapes after decomposition. It is more environmentally friendly than brominated and chlorinated flame retardants. In recent years, it has replaced the old agents in high-end electronics and transportation fields.
Although this is the case, it should be noted that environmental regulations are revised from time to time. When purchasing and applying, enterprises should still obtain the latest safety data table (SDS) and third-party certification certificates, such as a full set of certificates from SGS, Intertek and other institutions. Many downstream enterprises should study their raw material flow and compliance reports in detail because their own standards exceed regulations, or need additional verification and declaration.
All in all, Mflam LX-15, an aluminum-diethylphosphonate, is now produced on the right track. Its chemical nature and third-party testing results widely meet the requirements of European environmental regulations such as RoHS and REACH, and can be compliant and green flame retardant materials. However, users must always keep an eye on changes in regulations and track down the certificate of conformity in a timely manner for safe application.
Mflam LX-15 is mainly composed of aluminum salts and organophosphoric acids, with stable chemical properties. It does not contain lead, cadmium, mercury, hexavalent chromium and other metals, nor brominated flame retardants such as polybrominated biphenyls (PBB) and polybrominated diphenyl ethers (PBDE). It is one of the six restricted substances stipulated in the European Union's Restriction of Hazardous Substances Directive (the full name of RoHS), so that the limit is between 1/1000 and 0.1 parts per million. Please refer to its provisions for details. This flame retardant is not listed as one of the above six or other new substances subject to restriction. Even if its impurities are generally refined, it is not easy to exceed the limit set by RoHS. In recent years, manufacturers have mostly obtained test certificates and reports from relevant authoritative organizations, stating that they must not exceed the limits set by the directive, and each batch of products is still accompanied by test regulations.
Not only the RoHS directive, but also if referring to the REACH regulations, it has not been listed in the Substances of Very High Concern (SVHC) list. In common environmental testing items, such as halogen, heavy metal content, water-soluble harmful ions, etc., Mflam LX-15 can mostly pass the certification of relevant third-party laboratories. The reason is that the structure is elegant, no dangerous groups are contained, and no highly toxic gas escapes after decomposition. It is more environmentally friendly than brominated and chlorinated flame retardants. In recent years, it has replaced the old agents in high-end electronics and transportation fields.
Although this is the case, it should be noted that environmental regulations are revised from time to time. When purchasing and applying, enterprises should still obtain the latest safety data table (SDS) and third-party certification certificates, such as a full set of certificates from SGS, Intertek and other institutions. Many downstream enterprises should study their raw material flow and compliance reports in detail because their own standards exceed regulations, or need additional verification and declaration.
All in all, Mflam LX-15, an aluminum-diethylphosphonate, is now produced on the right track. Its chemical nature and third-party testing results widely meet the requirements of European environmental regulations such as RoHS and REACH, and can be compliant and green flame retardant materials. However, users must always keep an eye on changes in regulations and track down the certificate of conformity in a timely manner for safe application.
