Title: Dibutyl Phthalate - Focusing on 60% Density, Boiling Point, and CAS No.Title: Dibutyl phthalate - Focusing 60% Density on Boiling Point and CAS Number
Dibutyl phthalate (DBP) is a widely - studied chemical compound.Dibutyl-phthalate (DBP), a chemical compound, is widely studied. It has numerous applications in various industries, and understanding its properties such as density, boiling point, and having knowledge of its CAS number is crucial for its safe and effective use.It has many applications in different industries. Understanding its properties, such as density and boiling point, is important for its safe and efficient use.

Let's first talk about density.Let's start with density. When we consider a 60% density of dibutyl phthalate, it's important to note that density is a measure of mass per unit volume.It's important to remember that density is a measurement of mass per volume. The density of pure dibutyl phthalate typically ranges around 1.042 - 1.048 g/cm3 at 20degC.Pure dibutyl is typically around 1.042-1.048 g/cm3 when measured at 20degC. However, when we have a 60% density situation, it could imply a mixture where dibutyl phthalate makes up 60% of the total mass or volume in relation to another substance.When we talk about a 60% density, it can mean that dibutyl is 60% of the total volume or mass in comparison to another substance. For example, if it's mixed with a solvent, this 60% density would influence the physical behavior of the mixture.This 60% density could influence the physical behaviour of a mixture, for example, if the dibutyl phthalate is mixed with a solvant. A higher density contributed by dibutyl phthalate in the mixture can affect processes like separation, sedimentation, and flow characteristics.A mixture with a higher dibutyl-phthalate density can affect processes such as separation, sedimentation and flow characteristics. In industrial applications such as in the formulation of plastics or coatings, the 60% density of dibutyl phthalate can determine how well the product adheres, its spreadability, and its overall performance.In industrial applications, such as the formulation of coatings or plastics, the 60% dibutyl density can determine the product's adhesion, spreadability, and overall performance.

The boiling point of dibutyl phthalate is another significant property.Another important property is the boiling point of dibutyl-phthalate. The boiling point of pure dibutyl phthalate is approximately 340degC.The boiling point for pure dibutylphthalate is approximately 350degC. This relatively high boiling point makes it suitable for applications where heat stability is required.This relatively high boiling temperature makes it suitable for applications that require heat stability. In the manufacturing of certain polymers, dibutyl phthalate can be used as a plasticizer.Dibutyl phthalate is used as a plasticizer in the manufacture of certain polymers. During the polymer production process, which often involves high - temperature processing steps, the high boiling point ensures that dibutyl phthalate remains in the system without evaporating easily.The high boiling point of dibutylphthalate ensures that it remains in the system during the polymer production, which involves many high-temperature processing steps. If we consider the context of the 60% density situation again, the boiling point of the mixture may be altered depending on the nature of the other component.Consider the situation of 60% density again. The boiling point of the mix may change depending on the other component. According to Raoult's law for ideal mixtures, the boiling point of a mixture is related to the vapor pressures of its components.According to Raoult’s law for ideal combinations, the boiling point is related to the vapor-pressures of the components. If the other component in the 60% dibutyl phthalate mixture has a lower boiling point, it may cause the overall boiling point of the mixture to be lower than that of pure dibutyl phthalate.If the other component of the 60% dibutyl mixture has a lower melting point, this may cause the boiling point of the entire mixture to be lower that pure dibutyl. On the other hand, if the second component has a very high boiling point, the boiling point of the mixture may be closer to that of dibutyl phthalate.If the second component is very high in boiling point, then the boiling point of mixture will be closer to dibutylphthalate.

The CAS number of dibutyl phthalate is 84 - 74 - 2.The CAS number for dibutylphthalate is 84-74-2-2. The CAS (Chemical Abstracts Service) number is a unique identifier for chemical substances.The CAS number (Chemical Abstracts Service), is a unique identifier of chemical substances. It serves as a universal key for scientists, regulatory bodies, and industries to accurately refer to dibutyl phthalate.It is used by scientists, regulatory agencies, and industry to refer to dibutylphthalate. Regulatory agencies use the CAS number to enforce safety regulations, such as setting limits on its use in consumer products due to potential health risks.The CAS number is used by regulatory agencies to enforce safety regulations. For example, they may limit its use in consumer goods due to possible health risks. For instance, in some countries, there are restrictions on the amount of dibutyl phthalate that can be present in toys or personal care products.In some countries, for example, there are limits on the amount dibutylphthalate that is allowed in toys or personal-care products. The CAS number also helps in data compilation and retrieval.The CAS number is also useful for data retrieval and compilation. Scientists can search for research papers, safety data sheets, and other information related to dibutyl phthalate using its CAS number.Scientists can use the CAS number to search for research papers and safety data sheets related to dibutylphthalate. In the context of the 60% density and boiling point discussions, the CAS number ensures that the properties being studied are indeed those of dibutyl phthalate.The CAS number is used to verify that the properties discussed, such as 60% density and boiling points, are those of dibutylphthalate. It eliminates any confusion that could arise from similar - sounding or looking compounds.It removes any confusion caused by similar-sounding or similar-looking compounds.

In conclusion, understanding the 60% density, boiling point, and CAS number of dibutyl phthalate is fundamental.Understanding the 60% density, boiling temperature, and CAS number is essential. The density affects the physical behavior of mixtures, the boiling point determines its heat - stability - related applications, and the CAS number provides a unique and accurate way to identify and regulate this compound.The density of mixtures affects their physical behavior, the boiling point determines their heat-stability-related applications, and the unique CAS number is a way to accurately identify and regulate the compound. Whether in industrial production, research, or regulatory compliance, these aspects of dibutyl phthalate play vital roles in ensuring its proper handling and use in a way that balances its beneficial applications with potential risks.These aspects of dibutyl-phthalate are vital in ensuring that it is used in a manner that balances its beneficial uses with its potential risks, whether in industrial production, regulatory compliance, or research. As research continues, more in - depth understanding of how these properties interact and how they can be optimized for different uses will further enhance the role of dibutyl phthalate in various fields.Dibutyl Phthalate will continue to be used in many fields as research continues.