Hey there! As a supplier of CAS 115 - 96 - 8, I'm super excited to chat with you about its derivatives. CAS 115 - 96 - 8 refers to Tris(2 - chloroethyl) phosphate, which is widely used in various industries, especially as a flame retardant. In this blog, we'll take a deep dive into some of its key derivatives.
First off, let's talk about why derivatives matter. Derivatives of a chemical compound are like its offspring. They inherit some of the characteristics of the parent compound but also have unique features that make them suitable for different applications. For CAS 115 - 96 - 8, its derivatives often share the flame - retardant property but may have improved performance in terms of stability, toxicity, or compatibility with other materials.
One well - known derivative is Isopropylated Triphenyl Phosphate. You can find more info about it here. This derivative is a popular choice in the flame - retardant market. It has a good balance between flame - retardant efficiency and physical properties. For example, it can be easily incorporated into polymers without significantly affecting their mechanical strength. This makes it ideal for use in plastics, rubber, and textiles. In plastics, it helps to reduce the flammability of the material, making products safer. In rubber, it can enhance the fire - resistance of rubber components, which is crucial in applications like automotive parts. And in textiles, it can provide a durable flame - retardant finish, protecting the fabric from catching fire easily.
Another derivative worth mentioning is Tri(1,3 - dichloropropyl)phosphate. You can check out more details here. This derivative is known for its high flame - retardant effectiveness. It has a relatively high chlorine content, which contributes to its excellent fire - suppressing ability. It's often used in high - performance applications where a high level of fire protection is required. For instance, in the construction industry, it can be added to insulation materials to improve their fire - resistance. In the electronics industry, it can be used in printed circuit boards to prevent fires caused by electrical malfunctions. However, it's important to note that due to its relatively high toxicity, proper handling and safety measures are necessary when using this derivative.
Phenoxycycloposphazene is also an interesting derivative of CAS 115 - 96 - 8. You can learn more about it here. This derivative has a unique chemical structure that gives it some special properties. It has good thermal stability and can maintain its flame - retardant performance at high temperatures. This makes it suitable for applications in the aerospace and aviation industries, where materials need to withstand extreme conditions. In aerospace components, it can help to reduce the risk of fire, ensuring the safety of passengers and crew. It can also be used in high - temperature - resistant coatings, providing a fire - resistant barrier on surfaces.
Now, let's talk about the production process of these derivatives. The production of derivatives of CAS 115 - 96 - 8 usually involves chemical reactions. For example, to produce Isopropylated Triphenyl Phosphate, a reaction between CAS 115 - 96 - 8 and isopropyl - containing compounds is carried out under specific reaction conditions, such as temperature, pressure, and the presence of catalysts. The same goes for Tri(1,3 - dichloropropyl)phosphate and Phenoxycycloposphazene. The reaction conditions need to be carefully controlled to ensure the quality and yield of the derivatives.
Quality control is also a crucial aspect. As a supplier, I make sure that all the derivatives we produce meet the highest quality standards. We conduct various tests, including chemical analysis, physical property testing, and flame - retardant performance testing. This ensures that our customers get products that are reliable and effective. For example, we use gas chromatography - mass spectrometry (GC - MS) to analyze the chemical composition of the derivatives, and we perform cone calorimetry tests to evaluate their flame - retardant performance.
In terms of the market demand for these derivatives, it's on the rise. With the increasing awareness of fire safety in various industries, the need for high - quality flame retardants is growing. The construction, electronics, automotive, and textile industries are the major consumers of these derivatives. For example, in the construction industry, new building codes and regulations are being implemented to require higher fire - resistance levels in buildings. This has led to an increased demand for flame - retardant materials, including the derivatives of CAS 115 - 96 - 8.
If you're in the market for these derivatives or have any questions about them, I'd love to have a chat with you. Whether you're looking for a small - scale sample to test or a large - scale supply for your production, I can provide you with the right solutions. Just reach out, and we can start the conversation about how these derivatives can meet your specific needs.
In conclusion, the derivatives of CAS 115 - 96 - 8 offer a wide range of benefits in terms of flame - retardant applications. Each derivative has its own unique features and is suitable for different industries and applications. As a supplier, I'm committed to providing high - quality products and excellent customer service. So, if you're interested in these derivatives, don't hesitate to get in touch for a purchase negotiation.
References
- Handbook of Flame Retardants, Second Edition. Edited by George Brostow.
- Fire Retardancy of Polymeric Materials. Edited by Eric D. Weil and Sergei V. Levchik.
