Hey there! As a supplier of the compound with CAS 13674 - 87 - 8, I'm super excited to share with you all the cool physical properties of this stuff. So, let's dive right in!
First off, what exactly is this compound? Well, it has a whole bunch of applications, especially in the field of flame retardants. You might be familiar with other flame - retardant compounds like Phenoxycycloposphazene, Isopropylated Triphenyl Phosphate, and TDCPP - LS. But today, our focus is on the compound with CAS 13674 - 87 - 8.
Appearance
The first thing you'll notice about this compound is its appearance. In most cases, it's a white to off - white powder. This powdery form makes it easy to handle and mix with other substances. Whether you're incorporating it into a polymer matrix or using it in a coating formulation, the fine powder can be evenly dispersed, which is crucial for its performance as a flame retardant.
Melting Point
The melting point of the compound with CAS 13674 - 87 - 8 is an important physical property. It typically has a melting point in the range of [X] - [X] degrees Celsius. This relatively high melting point means that it can withstand elevated temperatures without melting or degrading easily. In applications where heat resistance is key, such as in high - temperature polymers or electronic components, this property is a huge plus. For example, when used in electrical insulation materials, it can maintain its integrity even when exposed to the heat generated by electrical currents.
Solubility
Solubility is another aspect that we need to consider. This compound has limited solubility in water. That's actually a good thing in many applications. When used in materials that might come into contact with moisture, like outdoor plastics or building materials, its low water solubility prevents it from leaching out easily. However, it is soluble in some organic solvents. This solubility in organic solvents allows it to be incorporated into various organic - based formulations, such as resin systems or paints.
Density
The density of the compound is around [X] g/cm³. This density value is important for several reasons. In manufacturing processes, it helps in determining the amount of the compound needed per unit volume of the final product. Also, in applications where weight is a concern, like in the aerospace or automotive industries, the density of the flame retardant can impact the overall weight of the component. A lower - density flame retardant can contribute to weight reduction, which in turn can improve fuel efficiency or performance.
Particle Size
As I mentioned earlier, it's a powder. The particle size of this powder can vary, but it's usually in the range of [X] - [X] micrometers. A smaller particle size means a larger surface area, which can enhance the compound's reactivity and dispersion in a matrix. When it comes to flame - retardant applications, a well - dispersed compound can provide better protection against fire. The small particles can more effectively interact with the surrounding material and form a protective layer when exposed to heat or flame.
Vapor Pressure
The vapor pressure of the compound with CAS 13674 - 87 - 8 is relatively low. This is beneficial in many ways. A low vapor pressure means that the compound doesn't evaporate easily at normal temperatures. In industrial settings, this reduces the risk of inhalation exposure for workers. And in end - use products, it ensures that the flame - retardant properties are maintained over time, as the compound doesn't volatilize and escape from the material.
Thermal Stability
Thermal stability is a key property for a flame retardant. This compound shows excellent thermal stability. It can withstand high temperatures without significant decomposition. When exposed to heat, it starts to decompose at temperatures above [X] degrees Celsius. During decomposition, it releases substances that can help suppress flames. For example, it might release gases that dilute the oxygen concentration in the vicinity of the flame or form a char layer on the surface of the material, which acts as a barrier against further combustion.
Chemical Reactivity
In terms of chemical reactivity, this compound is relatively stable under normal conditions. It doesn't react readily with most common chemicals. However, in the presence of strong acids or bases, it may undergo some chemical reactions. This reactivity needs to be considered when formulating products. For example, if you're using it in a formulation that contains acidic or basic components, you need to make sure that the compound's performance isn't compromised.
Flame - Retardant Mechanisms
Now, let's talk a bit about how this compound works as a flame retardant. When exposed to a flame or high heat, it undergoes a series of chemical reactions. One of the main mechanisms is the formation of a char layer on the surface of the material. This char layer acts as a physical barrier, preventing oxygen from reaching the underlying material and reducing the heat transfer. Additionally, it can release phosphorus - containing compounds during decomposition. These phosphorus compounds can react with the free radicals generated during combustion, interrupting the combustion chain reaction and suppressing the flame.
Applications
Thanks to its unique physical properties, the compound with CAS 13674 - 87 - 8 has a wide range of applications. It's commonly used in plastics, such as polypropylene, polyethylene, and polycarbonate. In these plastics, it can improve the flame - retardant performance, making them suitable for use in various industries, including construction, electronics, and automotive. It's also used in coatings, where it can provide fire protection to surfaces. For example, in fire - resistant paints for buildings or industrial equipment.
Why Choose Our Product
As a supplier, we take pride in providing high - quality compound with CAS 13674 - 87 - 8. We ensure strict quality control during the manufacturing process to guarantee that the physical properties meet the specified standards. Our product is consistent in terms of appearance, melting point, solubility, and other key properties. We also offer technical support to our customers. Whether you're having trouble with the formulation or need advice on the best way to use the compound, our team of experts is here to help.
Contact Us for Purchase
If you're interested in using the compound with CAS 13674 - 87 - 8 for your flame - retardant applications, we'd love to hear from you. We can provide samples for you to test in your specific formulations. Our sales team is ready to discuss your requirements and offer competitive pricing. Don't hesitate to reach out and start a conversation about how our product can meet your needs.
References
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