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Equivalent to Exolit OP1230, what is the main chemical composition?
Exolit OP1230 is a commonly used flame retardant in industry today. It is mostly used in plastics, rubber and other materials to improve its fire resistance. Considering its essence, the main chemical composition is organophosphonate aluminum salt, commonly known as aluminum phosphite derivative. Its material properties are stable, and it is not easy to burn when heated. It can release phosphorus on the surface of the material at high temperature to help generate a carbonization protective layer and prevent the spread of flames. It is very popular.
Its structure is mostly aluminum phosphite, and it is closely bound to aluminum due to phosphorus-oxygen bonds. Common chemical formulas such as Al (H2PO2) 3, or modified by organic groups to form more stable complexes. Its color is mostly white or light powder, insoluble in water, acid and alkali resistance, thermal decomposition releases inert substances, and cooperates with the substrate to form a dense carbon layer, which helps block oxygen and makes it difficult to continue the combustion reaction. Unlike the old halogen flame retardants, Exolit OP1230 does not contain halogen. It is used in products and does not produce harmful gases. It coincides with the general trend of environmental protection and is highly regarded.
In preparation, aluminum phosphite is based, accompanied by specific organophosphine additions. After fine compounding and process improvement, flame retardancy and physical properties can be combined. It has good heat resistance and is suitable for high temperature processing. It also has good melting and dispersion, and is easy to spread evenly in synthetic resins. Therefore, it is widely used in polypropylene, polyester and other polymer materials.
In summary, the equivalent of Exolit OP1230 should be in the organic phosphonate aluminum salt, especially aluminum phosphite and its organic derivatives as the core. These compounds are not only flame retardant, but also environmentally friendly and harmless, and are the representatives of modern high-performance green flame retardants.
Equivalent to Exolit OP1230 application fields?
Exolit OP1230 is a phosphine-based flame retardant, its properties are determined, and its flame retardant effect is not good. It is often mixed with polymer materials to increase its flame retardant properties. It can be used in many fields such as plastic, rubber, rubber, rubber, and rubber materials. Today, its conjugates are used in major fields, as follows:
For children's work, there are phosphine-based flame retardants that can be used in external, printing, circuit boards and other parts. The sub-device is not used, and the production capacity is low. If the flame retardant measures are taken, it is easy to catch fire in case of high temperature, which endangers safety. In this way, the flame is added to polycarbonate, ABS, PBT and other lipids, which can effectively delay the burning speed, inhibit the generation of harmful lipids, and ensure the performance of its materials.
Traffic areas, such as automobile, aviation, roads, etc., are multi-purpose polymeric objects such as parts, seat rests, carpets, surface panels, etc. If fire protection is not added, it is easy to ignite in case of fire, and it will become large. Phosphine-based combustion is applied to polyurethane and polyester materials, which can not only ensure the safety of passengers, but also comply with the standard method.
In the construction industry, including plywood, foam materials, protective materials, etc., it is most likely to spread in case of fire. With this burning into building materials, the fire is suppressed, the toxicity is reduced, and the prevention effect is excellent. Especially in public buildings or high-rise buildings, fire protection is becoming more and more expensive, and this help is indispensable.
In addition, household utensils, furniture, windows, and flooring and other daily-use utensils are also widely burned to prevent damage. In the case of industrial production, the addition of industrial materials can cause clothing, canopies, safety materials and other supplies to catch fire. In the case of industrial production, the flame retardant energy can be applied to paint for resistance and fire resistance.
In terms of industrial production, Exolit OP1230 has an irreplaceable position in many fields such as industrial production, civil products, construction and transportation. Its application prospects will be further improved and safety concerns will be improved.
Equivalent to Exolit OP1230?
Exolit OP1230 is one of the best phosphorus-based flame retardants in modern times. It is widely used in polymer materials, especially engineering plastics. Its equivalents are also outstanding in terms of flame retardant performance, which is comparable to the original. Considering its physical and chemical properties, it mainly contains hypophosphite, so when applied to the material, it will cause decomposition in case of high temperature, release phosphoric acid derivatives, and then form a carbonized diaphragm on the surface of the material. This film can effectively isolate oxygen and heat sources, reducing the combustion spread rate of the material significantly.
In terms of UL94 flame retardant grade, plastics containing such flame retardants can often reach V-0 grade, do not drip during combustion, and have excellent self-extinguishing properties. Another example is the oxygen index LOI test, with Exolit OP1230, the value is often higher than 30%, far exceeding the substrate of the unadded. These characteristics are greatly superior in ensuring material safety and meeting international standards. Equivalents are mostly developed by domestic and foreign manufacturers according to the original formula or mechanism. They have both environmental protection characteristics, do not contain halogens, and emit very little smoke and harmful gases during combustion, which is beneficial to the health of people and the environment.
In addition, such flame retardants have excellent compatibility with polymer substrates, good dispersion, and are not easy to cause deterioration of mechanical properties of the material. The processing temperature can also be withstood, and there is no obvious precipitation phenomenon. The matching polyacrylic, polyamide and other materials have good color and appearance of the products, and generally do not need to change the equipment in the process.
Looking at the equivalent products on the market, their performance, dosage and application range are mostly comparable to Exolit OP1230. The test data such as flame retardancy, thermal stability and migration resistance are comparable, and the price may be slightly better than that of imported products. It is suitable for industrialization and promotion. However, its quality still needs to be strictly controlled, and it should be tested by a third party authority in order to be stable.
All in all, the flame retardant equivalent to Exolit OP1230 has high performance, wide application, environmental protection and safety, and is worthy of being the best choice among new flame retardant materials.
Equivalent to Exolit OP1230?
According to the formulation of flame retardant materials, Exolit OP1230 is an organophosphonate flame retardant, which is commonly used in polyolefins, engineering plastics, epoxy resins and many other substrates. In order to seek its effectiveness, it is necessary to measure the requirements of substrate properties, product thickness, and flame retardant grade before indicating its recommended addition amount.
Citing ancient and modern techniques, according to the same phosphorus flame retardant of Exolit OP1230, the appropriate dosage is between 5 and 25% by weight. For polypropylene and polyethylene substrates, the UL 94 V-0 grade is usually 15 to 20%. If applied to epoxy resin castables, the addition amount can be reduced as appropriate, because the substrate has different tolerance to flame retardants. If there is a need for modification, it can be used in combination with synergistic agents such as antimony trioxide to appropriately reduce the dosage of the main agent, so as to achieve both economy and performance.
However, the reason why flame retardants are effective is that they need to be fully miscible with the substrate, and the appearance and mechanical properties of the product are essential. If it is too much, it will exacerbate the gelatinization and affect the mechanical properties, color and durability of the finished product, which will backfire. Therefore, it is advisable to conduct a small sample test first, and test it in stages to observe its combustion, mechanics, compatibility and other properties, and adjust it carefully so that it can achieve reliable fire protection without damaging the appearance, toughness and practicality of the original material.
Gu Yun "The cause of the disease must be clear when using the drug, and the tonic should be reviewed for the actual situation." Nowadays, when using the agent to make materials, it is also necessary to know its material, structure and use, and weigh the need for flame retardancy. Exolit OP1230 uses phosphorus and nitrogen as bones, expands and carbonizes in case of fire, and blocks oxygen intrusion. It is its mechanism. However, there may be deviations in different regions, batches, formulas, or deviations, especially in cooperation with the actual process, and repeated tests as soon as possible.
If this flame retardant wants to exert the highest function, it should be fine-tuned as appropriate based on the experimental data, but roughly 10% to 25% of the total formula amount, which is more reasonable. In this way, not only a good flame retardant grade can be obtained, but also the stability of the product can be obtained, taking
Equivalent to Exolit How does OP1230 work with other flame retardants?
Exolit OP1230, a new type of organophosphorus flame retardant in this world, is mainly used in the field of fire protection of polymer materials. It is warm and effective, and releases phosphorus in case of fire. It is in the state of a protective wall in a flame. However, it can be used in combination with other flame retardants, or it can receive synergistic effect, so as to achieve the ultimate anti-extinguishing.
Now it is flame retardant, or halogen-based, but if it is used for a long time, it is poisonous. Exolit OP1230 is halogen-free, environmentally friendly and safe, and has high thermal stability and excellent performance. However, it is used alone or slightly less effective, and is mostly supplemented by inorganic and organic flame retardants. It is often combined with inorganic types such as aluminum hydroxide and magnesium hydroxide. The reason is that OP1230 is a polymerized phosphorus compound. When it is fired, an expanded carbon layer is formed to isolate oxygen, and the flame retardant effect is obvious. The inorganic agent decomposes and releases water when heated, which also helps to cool down and suppress smoke. The combination of the two, re-blocking oxygen, absorbing heat, and protecting materials, together shows double fire suppression power.
When melamine is matched together, melamine decomposes and absorbs heat, and releases nitrogen gas, curbing the spread of combustion. It is OP1230 and melamine that complement each other, and the carbon layer and foaming co-occur, which greatly increases the flame retardant effect. There is also a combination of phosphorus and nitrogen systems, which generate ammonium phosphate in the reaction, and turn into a dense isolation interface, which does not invade the flame. It can also be mixed with antimony trioxide (Sb2O3), solid and liquid go hand in hand to enhance the durability of the carbonized layer and improve the total flame retardant energy.
The regulation ratio needs to be weighed according to the material characteristics. For example, thermoplastic resins should be distributed in low doses to prevent loss of mechanical strength. Polymer foams are suitable for high mixing to strengthen the expanded carbon shell. The method of mixing is mostly double chelation technology or surface modification cooperation to make OP1230 compatible with other agents and prevent mutual rejection loss. Product processing, often compound mixing first, and then high temperature molding, so that the system is integrated as one, and the flame retardant benefits are increased.
Overall, Exolit OP1230 synergistic agent, or inorganic, or organic, or phosphorus with nitrogen, or antimony adjuvant, can be used to resist flames and maintain material safety.