Piperazine Pyrophosphate Blends
| HS Code | 697939 |
| Chemical Formula | varies depending on blend ratio |
| Appearance | Solid, powder or granular form |
| Solubility | Low solubility in water |
| Melting Point | Typically high, above 200°C |
| Density | Moderate density values |
| Ph | Can affect the pH of solutions it's added to, usually slightly basic |
| Thermal Stability | Good thermal stability in normal conditions |
| Crystal Structure | Complex crystal lattice due to blend |
| Flammability | Generally non - flammable |
| Reactivity | Reacts with strong acids and bases |
As an accredited Piperazine Pyrophosphate Blends factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Piperazine Pyrophosphate Blends packaged in 5 - kg bags for easy handling. |
| Storage | Piperazine Pyrophosphate Blends should be stored in a cool, dry place away from direct sunlight and heat sources. Keep containers tightly sealed to prevent moisture absorption and contamination. Store it separately from incompatible substances, like strong oxidizers or acids. Adhere to proper labeling for easy identification and safety. |
| Shipping | Piperazine Pyrophosphate Blends are shipped in well - sealed, corrosion - resistant containers. Special care is taken to prevent moisture ingress and ensure stability during transit, following all relevant chemical shipping regulations. |
Competitive Piperazine Pyrophosphate Blends 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
Tracing back to its origin, piperazine pyrophosphate mixtures began in the chemical industry in the middle of the last century. On the road of exploring fireproof materials, chemists have worked hard to obtain the reaction method of piperazine and pyrophosphate, which is effective in resisting fire. At the beginning, it was used, and most of it was synthesized seamlessly. The process was not pure, and its application was limited to a few high-end fields. Since modern times, science has changed with each passing day, and the synthesis technology has been progressive. In response to the needs of environmental protection and functionalization, the ratio of piperazine pyrophosphate mixtures has become more diverse, which can be compatible with a variety of polymer substrates and is widely used in the fields of building materials, textiles, and electrical appliances. Its development trajectory is from coarse to fine, from single to composite, and it is innovative. It highlights the progress of chemical technology, and also shows the trend of global safety and environmental protection.
Product Overview
This product is a piperazine phosphate compound, which is a new type of highly efficient and environmentally friendly flame retardant. It is pure in quality and slightly pigmented. It dissolves in a variety of polymer materials and is widely used in polyolefins, polyamides and textile coatings. Mixing science, excellent performance, can significantly improve the flame retardant grade of the material at low dosage, and has the effects of smoke suppression and heat resistance. Halogen-free and environmentally friendly, in line with the needs of contemporary green industry, easy to transfer, and suitable for a variety of preparation processes. Long-term storage remains unchanged, and thermal stability is better than conventional organic flame retardants. Its mechanism is based on the double synergy of expansion and oxygen isolation, generating an expanded carbon layer during combustion, which effectively curbs the spread of fire. It is the best choice for fire safety of today's products and is highly respected by
Physical & Chemical Properties
Piperazine Pyrophosphate Blends, the body is mostly white or off-white powder, the particle size is uniform, fine as frost. Stable properties, insoluble in water, acid or strong oxidant can gradually decompose, not easy to volatilize at room temperature, high melting point, excellent thermal stability. When in contact with fire, it can release phosphoric acid and nitride, with significant flame retardant effect. Its molecular structure is compact, the density is moderate, the accumulation is good, easy to mix with a variety of polymer materials. Its chemical properties are mild, good compatibility, can cooperate with resins, plastics, etc., not easy to aggregate into groups, strong dispersion, long-term storage does not change color, and no corrosion of metals. If placed in a dry and closed place, the properties will last forever, only to avoid strong light and high humidity. Overall, it is an ideal green and environmentally friendly flame retardant additive.
Technical Specifications & Labeling
This "Piperazine Pyrophosphate Blends", its shape is mostly white or off-white powder, delicate and uniform, without odor. The chemical composition is a compound of piperazine pyrophosphate, mainly containing more than 60 monomer piperazine pyrophosphate, supplemented by trace modifying additives, and the loss of ignition does not exceed 3%. The particle size can reach less than 20 microns. The density is about 2.1 woks per cubic centimeter, and the dry loose specific gravity is between 0.6 and 0.8. The water content is very low, often less than 1%, and the impurity sulfate and iron ions are within the standard limit. High thermal decomposition temperature, can withstand heat of 300 degrees. Excellent dispersion in different polymer materials, wide application. The packaging is made of multi-layer kraft paper bags, each bag has a net weight of 20 or 25 kilograms, with moisture-proof lining, clear logo, batch number, specifications, manufacturer and production date.
Preparation Method
The preparation of piperazine pyrophosphate, taking piperazine as raw material, with phosphoric acid or pyrophosphoric acid as auxiliary, according to a fixed ratio into the reaction kettle, add an appropriate amount of solvent, slowly stirring. The temperature gradually rises to about 100 degrees Celsius, maintaining a constant temperature, so that piperazine and phosphoric acid esterification or condensation reaction to form pyrophosphate. During this period, catalysts such as acidic aluminum silica or sulfonic acid can be used to promote the reaction rate. When the reaction is terminated, the crystallization is cooled, impurities are filtered off, and vacuum drying is repeated to obtain a white powdery finished product. This process is good at adjusting the temperature and reaction timing, controlling the leakage and dispersion of water and water, and doubling the purity of the product. If blended with other flame retardants, the main and auxiliary should be evenly dispersed and mixed in a high-speed mixer, so that the composite system
Chemical Reactions & Modifications
Piperazine pyrophosphate has stable properties and releases phosphorus to enhance flame retardancy at high temperatures. When blended with polymers, chemical reactions are often used to increase its compatibility. When it is copolymerized or cross-linked, pyrophosphate and the polymerization body are grafted and intercalated, which modifies the heat resistance and flame retardancy of the body. If blended with epoxy and alcohol hydroxyl, the amine groups on piperazine interact with the main chain hydroxyl groups to form hydrogen bond complexes and enhance the overall strength of the material. Pyrophosphate is left on the surface of the material and is thermally released into phosphoric acid, catalyzing carbonization and reducing the escape of gas. Therefore, piperazine pyrophosphate is not only enhanced by physical blending, but also chemically modified into a high-quality composite, which has both high flame retardancy and ideal mechanical properties. It is widely used in the improvement of polymer materials, providing a model of synergy.
Synonyms & Product Names
Piperazine Pyrophosphate is often referred to as piperazine pyrophosphate in the chemical industry, or piperazine bisphosphate. Circulating in the market, there are many different names, such as PPAP mixture, PZPP compound, and even piperazine diphosphate compatibility. Manufactured by various factories, the names of the products are various, or marked with Firebrake ZB-PPAP, or Flamebland PZPP, and some are also named as flame retardant treasures. Academic works, or brief books, are Piperazine polyphosphate blends, or the note of adding phosphorus flame retardant. Among them, the ratio and process are different, and the performance is slightly different, but they are all aimed at flame retardant and efficiency. Therefore, regardless of its synonymous name or product logo, it is a highly efficient compound flame retardant composed of piperazine and pyrophosphoric acid, which is widely respected for plastics, rubber or resins.
Safety & Operational Standards
Piperazine Pyrophosphate Blends, a new type of chemical raw material, is widely used in the field of flame retardancy. In view of its properties, it should be implemented with caution. If it is slow, it will be safe, and if it is loose, it will be more afraid. Its shape may be white powder or fine particles, with a slightly bitter taste and stable properties, but in case of high temperature or fire, or in case of strong acid and alkali, it is afraid of decomposition and will be left behind in people. Anyone who handles it must first prepare a full set of protection, wear goggles, masks, gloves, and protective clothing, and do not make the skin naked. It is especially appropriate to protect the respiratory airway. Storage should be in a cool and dry place, away from fire and heat sources, often ventilated and ventilated, sealed its equipment, do not mix with strong oxidizing agents and reducing agents, and avoid moisture and direct sunlight. When removing, proportioning, and mixing, it is advisable to put it in slowly, and do not pour it violently to prevent dust splashing. If it accidentally splashes on the skin, rinse it with water quickly; if it misses the eye, wash it with flowing water for 15 minutes in a hurry, and if it is serious, go to the doctor immediately. If dust is inhaled and transferred to fresh air, medical treatment is also required in serious cases. Waste residues should be collected in accordance with regulations, and should not be mixed into ordinary garbage at will. They should be handled by qualified persons according to local laws and regulations. Do not discard ditches and fields. Before the work, you must explain the safety rules, be familiar with emergency measures, and do not take chances. In case of fire, you must use dry powder, carbon dioxide or foam fire extinguishers to put out the fire, and do not use water to prevent the spread of the reaction. Where there is a movement and a static, the first is to maintain the environment and public safety.
Application Area
Piperazine pyrophosphate mixture is an innovative product developed by recent chemical research institutes. It has excellent flame retardant properties and is widely used in a variety of industries. Its warm and long-lasting properties can adhere to polymer materials, so that plastics, rubber, fibers, coatings and other flammable materials can enhance fire resistance and flame resistance. Especially important in the fields of electronics, construction, transportation, etc., covering cable outer protection, carpets, furniture, and vehicle and ship interiors all require its fire protection. And because it is halogen-free and environmentally friendly, does not produce harmful gases, and is suitable for modern environmental protection needs, it is common in children's products and medical devices. Mixing and combining other flame retardants can improve the overall utility, making it the best material for safe process construction and helping modern industries update and develop. It is indispensable.
Research & Development
Research and development is the foundation of science and technology to rejuvenate the country. Those close to it are interested in the research and development of Piperazine Pyrophosphate Blends products, bring together the best of the group, and join the cause together. Explore its principles, collect the unique characteristics of diazine and pyrophosphate, study its compatibility, and obtain new composite materials. Discuss its mechanism, clarify its fire resistance and flame retardant, precisely regulate the reaction conditions, and strive to improve its performance. Tests hundreds of times, consider the ratio, analyze the structure and chemical properties, and identify its efficiency and environmental benefits. Compound with advanced instruments to monitor various indicators to ensure that the product meets the needs. It is also combined with many practical fields to promote the transformation of results, so that it can be widely applied to textile, plastics, rubber and other industries. However, with endless innovation and continuous research and development, scholars should be based on sincerity, carry forward the past, and benefit humanity.
Toxicity Research
Piperazine Pyrophosphate Blends is a new type of flame retardant. It is widely used in polymer materials to increase its fire resistance. However, its toxicity is unknown, so it needs to be investigated in detail. Try to apply this substance to animals to observe its acute toxicity and long-term effects. Short-term exposure, see shortness of breath, drowsiness, slight itching, but severe cases are rare. Accumulated administration, to observe the efficacy of liver and kidney, no significant damage was seen, but at high doses, there was a slight increase in liver enzymes. Looking at its toxicity to cells, although there is microcell apoptosis, there is no large-scale necrosis. The degradation products after environmental escape are also less toxic. Overall, Piperazine Pyrophosphate Blends have limited toxicity. If they are operated according to the procedures, the damage to the human body and the environment can be controlled, but the long-term effects need to be followed up to ensure complete safety.
Future Prospects
Piperazine Pyrophosphate Blends is an important flame retardant product in this world, and it is used more and more widely. As technology changes with each passing day, many fields seek environmental protection and high efficiency, and things are increasingly precious. Its heat-resistant and smoke-suppressing, non-toxic and low-resolution, not only conforms to the green concept, but also conforms to the policy direction. Material scholars have dedicated themselves to improving it, so that it can be integrated into polymer composites, electronic devices, and new building materials, and the benefits are becoming more and more obvious. In the future, with the rise of intelligent manufacturing, the production method is lean, and the preparation is more sophisticated. The application field may be extended to high-end industries such as aerospace and military industry. Looking to the future, Piperazine Pyrophosphate Blends should inherit the spirit of innovation, improve quality and efficiency, and spread across the world, making long-term contributions to human life and industrial progress.
Where to Buy Piperazine Pyrophosphate Blends in China?
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As a leading Piperazine Pyrophosphate Blends 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 uses of Piperazine Pyrophosphate Blends?
Piperazine pyrophosphate (Piperazine Pyrophosphate), its white powder, soluble in water and stable in nature. It is combined with many polymer materials and is often used as a flame retardant agent. In today's industry, plastic products are well-known, but they are flammable in case of fire, and the threat is very strong. In order to curb its disease, more flame retardant materials are taken and adjusted in them. Piperazine pyrophosphates are especially good at this.
There are two reasons: first, when decomposed at high temperature, pyrophosphate ions are released, which promotes the coking layer to be born on the surface of the polymer. This layer can isolate oxygen and prevent further combustion; second, its nitrogen-containing piperazine can release nitrogen in a hot topic environment, which can dilute the flammable gas in the combustion area and inhibit the spread of flames. It is used in polyvinyl chloride, polyurethane, epoxy resin, polypropylene and other materials, which can greatly improve its flame resistance.
Its mode of action is different from that of traditional flame retardants. It has no toxic residues of halogens and no benzene-based pollution, which greatly meets the needs of environmental protection. Today, the manufacture of cable jackets, electronic component shells, building materials, and vehicle and ship interiors often uses piperazine pyrophosphate as the main ingredient, and melamine, red phosphorus, and hydroxy compounds as the additive to achieve its flame retardant efficiency.
Chemists mostly use piperazine pyrophosphate as the main factor in process design, or share it with other phosphorus-nitrogen-based and inorganic flame retardants to gain synergies. Once the fire, the material is coking and foaming, solid and dense, and not easy to burn. Its wide application and far-reaching future are highly praised by the industry. In short, piperazine pyrophosphate and its compounds are now the guarantee of polymer material safety and the leader in the field of contemporary flame retardants.
There are two reasons: first, when decomposed at high temperature, pyrophosphate ions are released, which promotes the coking layer to be born on the surface of the polymer. This layer can isolate oxygen and prevent further combustion; second, its nitrogen-containing piperazine can release nitrogen in a hot topic environment, which can dilute the flammable gas in the combustion area and inhibit the spread of flames. It is used in polyvinyl chloride, polyurethane, epoxy resin, polypropylene and other materials, which can greatly improve its flame resistance.
Its mode of action is different from that of traditional flame retardants. It has no toxic residues of halogens and no benzene-based pollution, which greatly meets the needs of environmental protection. Today, the manufacture of cable jackets, electronic component shells, building materials, and vehicle and ship interiors often uses piperazine pyrophosphate as the main ingredient, and melamine, red phosphorus, and hydroxy compounds as the additive to achieve its flame retardant efficiency.
Chemists mostly use piperazine pyrophosphate as the main factor in process design, or share it with other phosphorus-nitrogen-based and inorganic flame retardants to gain synergies. Once the fire, the material is coking and foaming, solid and dense, and not easy to burn. Its wide application and far-reaching future are highly praised by the industry. In short, piperazine pyrophosphate and its compounds are now the guarantee of polymer material safety and the leader in the field of contemporary flame retardants.
What are the typical physical and chemical properties of Piperazine Pyrophosphate Blends?
The chemical formula of piperazine pyrophosphate is often recorded as C4H10N2 · H4P2O7, and the body is usually white or slightly yellow fine powder. Its properties are stable, insoluble in water, soluble in strong acid or alkali solutions. It is often used to enhance the flame retardant properties of plastics and rubbers. This material has a high solubility point, usually around 200 degrees Celsius, is not easy to volatilize, has a very high ignition point, is not easy to spontaneously ignite in case of fire, and can be stable in high temperature environments. It has mild chemical properties, is not easy to decompose at room temperature and pressure, and has good compatibility with a variety of polymer materials. It can be uniformly compounded in polyolefins, polyvinyl chloride and epoxy resins.
Its mixed preparation properties, smooth surface, fine particle size and uniform color. When exposed to hydroxide or strong acid, it can generate chemical reactions, decompose and release phosphorus or nitrogen components, which is beneficial to flame barrier. This substance has no volatile odor, is not easy to absorb moisture, and is stored for a long time. It is suitable for long-term storage and transportation. Composite in polymer materials, the bulk color becomes smaller and the transparency is good, which will not affect the mechanical properties of the raw material, especially the requirements for heat resistance and flame resistance. The products of its pyrolysis have a charcoal-forming effect, which can quickly form a dense carbon layer at high temperature, block oxygen, and inhibit the spread of fire.
Physical and chemical parameters: the density is mostly between 1.7 and 1.8 g/cm3, which is little affected by temperature. The pH value is neutral and weak alkali, and the environment is widely adapted. It decomposes slowly and has strong chemical stability under the influence of light, heat and oxygen. The properties remain unchanged under room temperature storage, synergistic effect with many kinds of additives and plasticizers, and there is no obvious side reaction or adverse precipitation phenomenon. In short, the compound preparation of piperazine pyrophosphate has stable properties, high solubility point, chemical reaction control, and excellent flame retardant effect. It is a good material commonly used in the polymer industry.
Its mixed preparation properties, smooth surface, fine particle size and uniform color. When exposed to hydroxide or strong acid, it can generate chemical reactions, decompose and release phosphorus or nitrogen components, which is beneficial to flame barrier. This substance has no volatile odor, is not easy to absorb moisture, and is stored for a long time. It is suitable for long-term storage and transportation. Composite in polymer materials, the bulk color becomes smaller and the transparency is good, which will not affect the mechanical properties of the raw material, especially the requirements for heat resistance and flame resistance. The products of its pyrolysis have a charcoal-forming effect, which can quickly form a dense carbon layer at high temperature, block oxygen, and inhibit the spread of fire.
Physical and chemical parameters: the density is mostly between 1.7 and 1.8 g/cm3, which is little affected by temperature. The pH value is neutral and weak alkali, and the environment is widely adapted. It decomposes slowly and has strong chemical stability under the influence of light, heat and oxygen. The properties remain unchanged under room temperature storage, synergistic effect with many kinds of additives and plasticizers, and there is no obvious side reaction or adverse precipitation phenomenon. In short, the compound preparation of piperazine pyrophosphate has stable properties, high solubility point, chemical reaction control, and excellent flame retardant effect. It is a good material commonly used in the polymer industry.
What is the proportion of Piperazine Pyrophosphate Blends added to plastics?
Piperazine pyrophosphate, known as piperazine pyrophosphate in Chinese, is a new type of halogen-free flame retardant, which is often used to give flame retardant properties to polymer materials. In terms of its application to plastics, thermoplastics such as polyolefins and polyesters are the most common. As for the addition ratio, it must be weighed with the properties of the plastic, the use scenario and the requirements of the flame retardant grade.
According to its ideal performance, piperazine pyrophosphate should be compatible with other synergistic flame retardants and added simultaneously to achieve the best flame retardant effect. If used alone, the mass fraction is between 5% and 20%, but the actual process is often within 10% to 15%. To achieve UL94 V-0 grade, or LOI (limiting oxygen index) is higher than 28%, the dosage must be increased accordingly. However, if it is too high, the mechanical properties may be reduced, and the fluidity of the plastic will also be hindered. If it is synergistic with additives such as melamine and ammonium polyphosphate, the ratio can be appropriately reduced, thus taking into account the flame retardant and mechanical properties.
Piperazine pyrophosphate is evenly distributed, and it should be dry mixed or mixed into the masterbatch by melt extrusion. When used, the initial state of the plastic should be clean and free of impurities, and the temperature control should be appropriate to prevent decomposition. After addition, the material's anti-dripping ability can be improved, and the precipitation of smoke and harmful gases can be reduced at the same time.
The flame retardant effect increases with the amount If the addition amount is too low, the flame retardant will be insufficient, and if the addition amount is too high, it will not be conducive to the production and mechanical properties of the product. In the actual process, it is recommended to test in small batches to determine the best ratio, so that both flame retardancy and processability can be achieved. Different manufacturers and batches of formulas are slightly different, and it is advisable to refer to the manufacturer's technical information or according to the end point application for specific deployment. Halogen-free green environmental protection is characterized by the fact that it can be fully reflected when the dosage is moderate.
In short, piperazine pyrophosphate is used for flame retardant plastics, and the addition ratio is mostly in the range of 10% to 15%. It must be carefully inspected before processing, and carefully tested after cutting. It is necessary to take into account the flame retardant requirements and the comprehensive properties of the material
According to its ideal performance, piperazine pyrophosphate should be compatible with other synergistic flame retardants and added simultaneously to achieve the best flame retardant effect. If used alone, the mass fraction is between 5% and 20%, but the actual process is often within 10% to 15%. To achieve UL94 V-0 grade, or LOI (limiting oxygen index) is higher than 28%, the dosage must be increased accordingly. However, if it is too high, the mechanical properties may be reduced, and the fluidity of the plastic will also be hindered. If it is synergistic with additives such as melamine and ammonium polyphosphate, the ratio can be appropriately reduced, thus taking into account the flame retardant and mechanical properties.
Piperazine pyrophosphate is evenly distributed, and it should be dry mixed or mixed into the masterbatch by melt extrusion. When used, the initial state of the plastic should be clean and free of impurities, and the temperature control should be appropriate to prevent decomposition. After addition, the material's anti-dripping ability can be improved, and the precipitation of smoke and harmful gases can be reduced at the same time.
The flame retardant effect increases with the amount If the addition amount is too low, the flame retardant will be insufficient, and if the addition amount is too high, it will not be conducive to the production and mechanical properties of the product. In the actual process, it is recommended to test in small batches to determine the best ratio, so that both flame retardancy and processability can be achieved. Different manufacturers and batches of formulas are slightly different, and it is advisable to refer to the manufacturer's technical information or according to the end point application for specific deployment. Halogen-free green environmental protection is characterized by the fact that it can be fully reflected when the dosage is moderate.
In short, piperazine pyrophosphate is used for flame retardant plastics, and the addition ratio is mostly in the range of 10% to 15%. It must be carefully inspected before processing, and carefully tested after cutting. It is necessary to take into account the flame retardant requirements and the comprehensive properties of the material
Does Piperazine Pyrophosphate Blends meet environmental requirements?
Piperazine pyrophosphate, also known as piperazine pyrophosphate in Chinese, is a new type of halogen-free flame retardant, which is widely used in the field of fire protection of polymer materials. It is developed in response to the environmental protection requirements of modern technology, and is intended to replace halogen-containing flame retardants. Halogen flame retardants are easy to decompose and produce harmful gases when exposed to high temperatures, polluting the air and harming the human body and the ecological environment. Piperazine pyrophosphate, combined with a variety of environmental protection additives, is characterized by non-toxicity, low smoke, low corrosion, no dioxins and polybrominated biphenyls release. In case of fire, no black smoke, no acid mist, and the residue can decompose naturally after combustion, without accumulating soil and water pollution.
The environmental performance of this material is firstly that the raw materials for production are mostly taken from common inorganic substances or organic amines, without causing secondary damage to the environment. Its own chemical properties are stable, and the waste after use is also easily degraded by the natural environment, or can be recycled and reused, reducing the worry of waste accumulation. Secondly, piperazine pyrophosphate is used in coatings, plastics, textiles, paper and other substrates. Experiments have proved that the amount of smoke released during combustion is much lower than that of traditional flame retardants, which is more suitable for public places and confined spaces. Flame retardant residues are free of heavy metals and harmful elements, and will not cause pollution of groundwater or farmland.
At the policy level, the European REACH specification and the US and Canada environmental protection regulations have also included piperazine pyrophosphate substances in the preferred list, promoting them as flame retardant materials that meet the goals of green manufacturing and sustainable development. Many international authoritative testing agencies have certified it as "environmentally friendly", "halogen-free" and "low toxicity", and included it in the relevant standard system. Nonetheless, it is still necessary to pay attention not to share with harmful additives during application to prevent potential toxicity from interaction reactions.
Overall, Piperazine Pyrophosphate Blends can not only meet the strict requirements of contemporary national and even international environmental protection regulations, but also be the preferred solution for enterprises to transform into green production. Its own environmental protection characteristics are both flame retardant and have broad prospects, making it a good choice for the new generation of flame retardant materials.
The environmental performance of this material is firstly that the raw materials for production are mostly taken from common inorganic substances or organic amines, without causing secondary damage to the environment. Its own chemical properties are stable, and the waste after use is also easily degraded by the natural environment, or can be recycled and reused, reducing the worry of waste accumulation. Secondly, piperazine pyrophosphate is used in coatings, plastics, textiles, paper and other substrates. Experiments have proved that the amount of smoke released during combustion is much lower than that of traditional flame retardants, which is more suitable for public places and confined spaces. Flame retardant residues are free of heavy metals and harmful elements, and will not cause pollution of groundwater or farmland.
At the policy level, the European REACH specification and the US and Canada environmental protection regulations have also included piperazine pyrophosphate substances in the preferred list, promoting them as flame retardant materials that meet the goals of green manufacturing and sustainable development. Many international authoritative testing agencies have certified it as "environmentally friendly", "halogen-free" and "low toxicity", and included it in the relevant standard system. Nonetheless, it is still necessary to pay attention not to share with harmful additives during application to prevent potential toxicity from interaction reactions.
Overall, Piperazine Pyrophosphate Blends can not only meet the strict requirements of contemporary national and even international environmental protection regulations, but also be the preferred solution for enterprises to transform into green production. Its own environmental protection characteristics are both flame retardant and have broad prospects, making it a good choice for the new generation of flame retardant materials.
What are the storage and transportation precautions for Piperazine Pyrophosphate Blends?
Piperazine Pyrophosphate (pyrazine diphosphate) is a commonly used flame retardant with stable performance and wide application. When describing its storage and transportation methods, particular care must be taken to ensure quality without loss and prevent problems before they occur. Now according to its properties, pay attention to a few in detail, and describe it in the classical language:
pyrazine diphosphate, its properties are white powder, slightly hygroscopic, should be dried and sealed, and be careful to keep moisture and water away. If damp, it is easy to agglomerate and lose its efficacy, so it needs to be stored in a ventilated and cool place, not near heat sources, and not exposed to sunlight. It should be stored in a closed container, usually in a plastic bucket or woven bag, with a thick film lining to prevent micro-leakage. Arrange in an orderly manner, according to the batch number, indicate the date of origin, check whether it has discoloration and odor, and add inspection when needed. Storage ambient temperature, preferably 15 degrees to 35 degrees, avoid overheating and overcooling. Beware of mixed foreign objects, especially avoid juxtaposing with acids, alkalis or combustibles. Keep away from high temperatures of fire sources to prevent damage and unburned.
Between transportation, the first heavy packaging is firm to prevent loose leakage. The cabin is stable to avoid violent shock. It is not suitable to transport with toxic and corrosive goods, and do not mix with food and beverages. Handling must be light, and it should be protected from pressure and damage. It should be swept away quickly when seen. Do not let it float. The means of transportation should be clean and pollution-free, and should not be exposed to rain and dew. The product certificate is attached with the goods, indicating the product name, quantity and precautions. There is a special person to monitor, and if there is any abnormality on the way, deal with it in time. When the goods arrive at the destination, they must be checked for damage to the appearance and complete seal, and then received.
Although it is non-toxic, people should wear gloves and masks when contacting to avoid dust inhalation and skin contact. If it is accidentally splashed into the mouth, rinse it with water quickly. If it is still unsuitable, seek medical treatment. The storage place should be equipped with safety signs and fire-fighting equipment to prepare for the risk of undetected.
In short, the method of storage and transportation focuses on drying, sealing, anti-mixing, anti-breaking, light unloading and placement, and classification. By doing so, pyrazine diphosphate can be kept stable in nature, and its use cannot be replaced. It is the best policy to prevent problems before they occur.
pyrazine diphosphate, its properties are white powder, slightly hygroscopic, should be dried and sealed, and be careful to keep moisture and water away. If damp, it is easy to agglomerate and lose its efficacy, so it needs to be stored in a ventilated and cool place, not near heat sources, and not exposed to sunlight. It should be stored in a closed container, usually in a plastic bucket or woven bag, with a thick film lining to prevent micro-leakage. Arrange in an orderly manner, according to the batch number, indicate the date of origin, check whether it has discoloration and odor, and add inspection when needed. Storage ambient temperature, preferably 15 degrees to 35 degrees, avoid overheating and overcooling. Beware of mixed foreign objects, especially avoid juxtaposing with acids, alkalis or combustibles. Keep away from high temperatures of fire sources to prevent damage and unburned.
Between transportation, the first heavy packaging is firm to prevent loose leakage. The cabin is stable to avoid violent shock. It is not suitable to transport with toxic and corrosive goods, and do not mix with food and beverages. Handling must be light, and it should be protected from pressure and damage. It should be swept away quickly when seen. Do not let it float. The means of transportation should be clean and pollution-free, and should not be exposed to rain and dew. The product certificate is attached with the goods, indicating the product name, quantity and precautions. There is a special person to monitor, and if there is any abnormality on the way, deal with it in time. When the goods arrive at the destination, they must be checked for damage to the appearance and complete seal, and then received.
Although it is non-toxic, people should wear gloves and masks when contacting to avoid dust inhalation and skin contact. If it is accidentally splashed into the mouth, rinse it with water quickly. If it is still unsuitable, seek medical treatment. The storage place should be equipped with safety signs and fire-fighting equipment to prepare for the risk of undetected.
In short, the method of storage and transportation focuses on drying, sealing, anti-mixing, anti-breaking, light unloading and placement, and classification. By doing so, pyrazine diphosphate can be kept stable in nature, and its use cannot be replaced. It is the best policy to prevent problems before they occur.
