Di-sec-octyl Phthalate (DCP): Properties, Suppliers & Safety Info

Di-sec-octyl phthalate (DCP), a member of the phthalate family, is commonly used in various industrial applications. It is also known by several synonyms such as dioctyl phthalate and DOP (though DOP typically refers to di-octyl phthalate, a different variant). DCP is widely used as a plasticizer in the production of flexible plastics, providing them with better flexibility, durability, and transparency. Its unique properties make it a preferred choice across numerous manufacturing processes. This document aims to provide detailed insights into DCP, including its suppliers, chemical safety, and applications.

When sourcing di-sec-octyl phthalate (DCP), businesses can turn to various suppliers that specialize in chemical distribution. Key suppliers include companies such as BASF, Eastman Chemical Company, and ExxonMobil Chemical, all of which have a robust catalog of chemical products, including DCP. Contacting these suppliers directly is advisable to get the most competitive pricing and reliable delivery timelines. Moreover, many of these suppliers offer additional services, including technical support and product customization. For further inquiries, it's recommended to use their official websites where detailed contact information can be found.

Di-sec-octyl phthalate (DCP) is characterized by its CAS number 117-81-7, which allows for precise identification in regulatory and safety contexts. The molecular formula of DCP is C24H38O4, reflecting its composition of 24 carbon atoms, 38 hydrogen atoms, and 4 oxygen atoms. Physically, DCP is a colorless, oily liquid with a high boiling point and low volatility, making it suitable for use in a variety of conditions. The density of DCP is approximately 0.98 g/cm³, which couches it within the category of plasticizers that are both effective and environmentally relevant. Understanding the chemical properties of DCP is crucial for businesses in industries where precise material specifications are necessary.

Dioctyl phthalate is subject to a variety of regulatory frameworks worldwide due to its classification as a chemical of concern in certain contexts. In the European Union, DCP is regulated under REACH (Registration, Evaluation, Authorisation and Restriction of Chemicals), which mandates that companies provide safety data regarding their use of DCP. Other relevant identifiers include its listing within hazardous substance databases, which often require businesses to disclose any presence of DCP in their products. Regulatory compliance is crucial for manufacturers and suppliers, particularly those exporting products to regions with stringent chemical safety regulations. Understanding these regulations can help companies navigate the complex landscape surrounding the use of DCP in their operations.

Di-sec-octyl phthalate (DCP) boasts several significant physical properties that define its usability. The moisture content of DCP is typically less than 0.1%, reflecting its stability over time. The assay values for DCP usually indicate a purity level of 99% or higher, which is critical for applications requiring precise chemical formulations. Organoleptically, DCP is generally odorless, making it suitable for applications in sensitive environments where scents may be problematic. These properties together contribute to its widespread acceptance in various industries, notably in manufacturing sectors.

In cosmetology, di-sec-octyl phthalate (DCP) is utilized mainly as a plasticizer and a solvent in the formulation of numerous cosmetic products. DCP enhances the texture of products, allowing for better application and spreadability on the skin. It is commonly found in formulations such as nail polishes and hair sprays, where flexible film formation is essential. However, due to safety concerns linked to phthalates, some cosmetics brands are moving towards phthalate-free alternatives. Despite these concerns, DCP continues to play a role in cosmetic applications, particularly in products aimed at providing long-lasting finishes.

Here is a list of several prominent suppliers of di-sec-octyl phthalate (DCP) that businesses can consider:

The classification of di-sec-octyl phthalate (DCP) indicates potential hazards associated with its use. DCP is often labelled with hazard statements such as H360 - May damage fertility or the unborn child, reflecting its classification under certain toxicological assessments. According to various safety data sheets, the material can cause irritation on contact, necessitating appropriate handling measures. Additionally, the toxicity ratings of DCP suggest that, while it may not be acutely toxic, prolonged exposure should be minimized to avoid any long-term health effects. Businesses handling DCP should ensure comprehensive training for employees on safe handling practices.

When using di-sec-octyl phthalate (DCP), it is vital to observe strict safety protocols to mitigate risks. Personal protective equipment (PPE) such as gloves and goggles should be worn to safeguard against direct contact. Additionally, using DCP in well-ventilated spaces can help reduce inhalation risks. Regulatory guidelines often suggest that manufacturers conduct risk assessments before integrating DCP into their products to ensure compliance with safety standards. Understanding these recommendations and restrictions is pivotal for creating a safe workplace.

Businesses can refer to several databases for essential safety information regarding di-sec-octyl phthalate (DCP). Resources such as the European Chemicals Agency (ECHA), the U.S. Environmental Protection Agency (EPA), and the National Institute for Occupational Safety and Health (NIOSH) offer comprehensive safety data sheets. Such databases provide essential information surrounding storage, handling, and disposal of DCP, aligning with regulatory compliance. Furthermore, checking scientific journals and articles dedicated to chemical safety and phthalate research can complement these resources. Leveraging these references guarantees that businesses are well-informed about the potential hazards associated with DCP.

1. European Chemicals Agency (ECHA) Report on DCP.

2. U.S. Environmental Protection Agency (EPA) Toxicity Report.

3. National Institute for Occupational Safety and Health (NIOSH) Safety Guidelines.

4. BASF Product Information on DCP.

5. Eastman Chemical Company Safety Data Sheets.

Additional resources for di-sec-octyl phthalate (DCP) can include industry-specific publications and chemical safety networks. Websites such as PubChem and ChemSpider provide chemical structure information, while industry trade groups often publish guidelines on handling chemicals safely. Moreover, attending workshops and webinars focused on chemical safety can connect businesses to experts in the field, ensuring they stay updated on best practices. Collaboration with these organizations can promote safer industry standards and enhance product safety.

Speculatively, di-sec-octyl phthalate (DCP) can have various industrial and research applications beyond traditional uses. For instance, it may play a role in developing environmentally friendly materials, as researchers explore the potential of biodegradable phthalates. Additionally, DCP may serve as a model compound in the study of plasticizers' interactions within polymers, fostering advances in material sciences. Such exploratory applications can potentially lead to innovative uses of DCP that align with industry trends focusing on sustainability and environmental impact.

Though di-sec-octyl phthalate (DCP) is primarily synthetic, trace occurrences of phthalates have been noted in natural sources due to environmental degradation processes. Studies indicate that phthalates can leach into soil and water systems, leading to concerns regarding contamination in various ecosystems. As such, research into the natural occurrence of DCP is ongoing, emphasizing the importance of monitoring environmental levels to safeguard ecological health. Understanding the prevalence of DCP in nature is crucial for comprehensive environmental risk assessments related to phthalate use.

Several related chemical names are associated with di-sec-octyl phthalate (DCP), which include:

Recent studies exploring di-sec-octyl phthalate (DCP) have highlighted its pharmacokinetics and potential effects on human health. Articles published in journals on toxicology raise concerns regarding endocrine disruption linked to phthalates, prompting regulatory bodies to re-evaluate approved uses. Research is also focusing on alternative plasticizers that could replace DCP in applications where safety is a concern. As scientific investigations progress, businesses are encouraged to stay informed of new findings that may affect their use of DCP in products.

General observations on di-sec-octyl phthalate (DCP) reveal its dual nature as a valuable plasticizer and a subject of safety scrutiny. While its properties facilitate many applications, rising health concerns may affect its future marketability and regulatory status. Companies utilizing DCP should consider aligning their practices with evolving regulations to mitigate potential disruptions. This foresight can position businesses advantageously within the chemical market, promoting responsible product stewardship and innovation.

For further inquiries regarding di-sec-octyl phthalate (DCP), interested parties can contact reputable suppliers or consult with regulatory bodies for detailed guidance.

Email: contact@chemicalsuppliers.com

Phone: (123) 456-7890

Company's official web pages often provide additional resources and direct contact avenues for specific queries related to DCP.