Hey there! As a supplier of the substance with CAS 13674 - 87 - 8, I often get asked about its melting point. So, let's dive right into it and explore this topic in detail.
First off, the substance with CAS 13674 - 87 - 8 is Tris(2 - chloroethyl) Phosphate. You can find more info about it on this page: Tris (2 - chloroethyl) Phosphate. It's a well - known chemical that has a bunch of applications, especially in the field of flame retardants.
Now, let's talk about the melting point. The melting point of a substance is the temperature at which it changes from a solid to a liquid state. For Tris(2 - chloroethyl) Phosphate, its melting point is approximately - 51 °C. That's pretty low, right? This low melting point means that under normal environmental conditions, it's usually in a liquid state.
The low melting point of Tris(2 - chloroethyl) Phosphate has several implications for its use. In the flame - retardant industry, for example, the liquid state allows it to be easily mixed with other materials. It can be incorporated into polymers, plastics, and textiles more uniformly compared to a solid - state flame retardant. This uniform distribution is crucial for ensuring that the flame - retardant properties are evenly spread throughout the material, providing better protection against fire.
When we compare Tris(2 - chloroethyl) Phosphate with other related flame - retardant chemicals, like Tri(2 - chloroisopropyl) Phosphate and Triethyl Phosphate, we can see some interesting differences. Tri(2 - chloroisopropyl) Phosphate, which you can learn more about here: Tri(2 - chloroisopropyl) Phosphate, has a different melting point. Its melting point is around - 6 °C. This is significantly higher than Tris(2 - chloroethyl) Phosphate. The higher melting point might make it more suitable for applications where a semi - solid or solid - like consistency is required at room temperature.
On the other hand, Triethyl Phosphate, detailed on this page: Triethyl Phosphate, has a melting point of about - 56 °C. This is even lower than Tris(2 - chloroethyl) Phosphate. The extremely low melting point of Triethyl Phosphate makes it highly fluid and easy to handle in liquid - based applications.
The melting point of a chemical is also related to its chemical structure. Tris(2 - chloroethyl) Phosphate has a structure where three 2 - chloroethyl groups are attached to a phosphate center. The presence of the chlorine atoms and the relatively long carbon - chain structure of the 2 - chloroethyl groups contribute to its physical properties, including the low melting point. The chlorine atoms introduce some polarity to the molecule, but the overall structure is still relatively flexible, which allows the molecules to move more freely at lower temperatures, resulting in a low melting point.
In the manufacturing process, the low melting point of Tris(2 - chloroethyl) Phosphate is an advantage. It doesn't require a lot of energy to keep it in a liquid state during production. This not only saves on energy costs but also makes the manufacturing process more environmentally friendly.
Quality control is another aspect where the melting point plays a role. When we supply Tris(2 - chloroethyl) Phosphate, we always test the melting point as part of our quality - assurance process. A deviation from the expected melting point can indicate impurities or a problem with the manufacturing process. So, by closely monitoring the melting point, we can ensure that our customers receive a high - quality product.
Now, let's talk about the market demand for Tris(2 - chloroethyl) Phosphate. Due to its excellent flame - retardant properties and the ease of handling because of its low melting point, it's in high demand in various industries. The construction industry uses it in building materials such as insulation foams and wall coverings to enhance fire safety. The automotive industry also incorporates it into interior components to meet fire - safety regulations.
If you're in an industry that requires a reliable flame - retardant with a low melting point, Tris(2 - chloroethyl) Phosphate could be the perfect choice for you. As a supplier, we offer high - quality Tris(2 - chloroethyl) Phosphate at competitive prices. We have a strict quality - control system in place to ensure that every batch of our product meets the highest standards.
Whether you're a small - scale manufacturer looking for a reliable source of flame retardant or a large - scale industrial player, we can meet your needs. We have the capacity to supply large quantities of Tris(2 - chloroethyl) Phosphate on a regular basis. And if you have any specific requirements, like a custom - formulated product or a special packaging solution, we're more than happy to work with you to find the best solution.
So, if you're interested in purchasing Tris(2 - chloroethyl) Phosphate or want to learn more about its applications and properties, don't hesitate to get in touch. We're here to answer all your questions and guide you through the procurement process.
In conclusion, the melting point of Tris(2 - chloroethyl) Phosphate is an important characteristic that influences its applications, manufacturing, and market demand. Its low melting point makes it a versatile and valuable chemical in the flame - retardant industry. If you think Tris(2 - chloroethyl) Phosphate could be a good fit for your business, reach out to us and let's start a conversation about how we can work together.
References
- Chemical Safety Data Sheets for Tris(2 - chloroethyl) Phosphate, Tri(2 - chloroisopropyl) Phosphate, and Triethyl Phosphate.
- Industry reports on flame - retardant chemicals.
