ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium

PRODUCT PARAMETERS

Description
REQUEST A QUOTE

Description

ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium Properties
Other Names N/A
CAS No. N/A
Compound Formula N/A
Molecular Weight N/A
Appearance NA
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility in H2O N/A
Exact Mass N/A
ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium Health & Safety Information
Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
Transport Information N/A


e8a990ed72c4a5aa2170d464e22a138a-2

(ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium)

Overview of ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium

ODEP-K potassium octyl decanol ethoxy phosphate is a chemical substance belonging to the phosphate ester class compounds. It combines long-chain alkyl and phosphate groups and has a unique molecular structure, making it widely used in fields such as flame retardants, plasticizers, and surfactants. This compound exhibits relatively stable chemical properties under appropriate conditions but may undergo hydrolysis reactions in high-temperature or acidic environments. It is important to avoid these conditions and maintain dryness and cleanliness. Due to its potential to impact the environment and human health, strict adherence to environmental and safety regulations is required during production and use.

 

Characteristic of ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium

1. Multifunctionality: ODEP-K can not only be used as a flame retardant to enhance the flame retardancy of materials, but also as a plasticizer to improve plastics' processing performance and flexibility. In addition, it can also serve as a surfactant to reduce the surface tension of water and stabilize oil-water mixtures.

2. Wide application areas: Due to its multiple functions, ODEP-K has been widely used in various fields such as textiles, plastics and rubber products, detergents, cosmetics, and pesticides.

3. Chemical stability: ODEP-K generally exhibits relatively stable chemical properties. However, it may undergo hydrolysis reactions under high temperatures or acidic conditions, so these conditions must be avoided during use and storage.

4. Environmental protection and safety: ODEP-K may have certain impacts on the environment and human health. Therefore, in the production and use process, it is necessary to strictly comply with relevant environmental and safety regulations to ensure its use's safety and environmental friendliness.

 

Application of ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium

1.Flame retardant: As a flame retardant, ODEP-K can effectively improve the flame retardant performance of materials. It can form a protective film on the material's surface to prevent direct contact between flames and the material's interior, thereby delaying the combustion process. This characteristic makes ODEP-K widely used in fields such as textiles, plastics, and rubber products, which helps enhance product safety and fire resistance.

 1708919625935993

ODEP-K used as a flame retardant

2.Plasticizer: As a plasticizer, ODEP-K can significantly improve plastics' processing performance and flexibility. It can reduce plastics' melting temperature and viscosity, making them easier to flow and shape. Meanwhile, by increasing the elongation and impact resistance of plastics, ODEP-K can improve plastic products' durability and service life. These characteristics make plastic products more beautiful, practical, and durable.

 1708919635f63f0a

As a plasticizer, ODEP-K can significantly improve the processing performance and flexibility of plastics

3. Surfactants: ODEP-K also has the function of a surfactant, which can diminish the surface tension of water and make oil-water mixtures more stable. Therefore, ODEP-K has also been widely used in detergents, cosmetics, and pesticides. It can improve the stability and performance of the product and enhance its usability.

 

170891958359078e

Company Profile

NANOTRUN(www.rboschco.com) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.If you are looking for high-quality ODEP-K Octyl Decyl Alcohol Ethoxylate Phosphate Potassium , please feel free to contact us or click on the needed products to send an inquiry. 

 

Payment Term

L/C, T/T, Western Union, Paypal, Credit Card etc.

 

1708919553f6b40a

Shipment Term

By sea, by air, by express, as customers request.

 

Storage Conditions:

1. Temperature control: ODEP-K potassium octyl decanol ethoxy phosphate should be stored in a cool, ventilated, and dry place, away from sources of fire and heat. Excessive temperature may lead to its decomposition or hydrolysis reaction.

2. Humidity control: Keep the relative humidity of the storage environment low to prevent product deterioration or hydrolysis caused by moisture.

3. Avoid exposure to light: Prolonged exposure to light may cause changes in the chemical properties of ODEP-K octyl decanol ethoxy phosphate potassium, so it is recommended to store it in a dark or weakly lit area.

4. Container selection: Use containers with good sealing performance for storage to prevent moisture and oxygen in the air from coming into contact with the product, leading to a decrease in quality.

5. Avoid mixing with other chemicals: ODEP-K potassium octyl decanol ethoxy phosphate should be stored separately to avoid mixing with other chemicals, especially acidic substances, to prevent chemical reactions from occurring.

6. Regular inspection: Inspect the stored ODEP-K octyl decanol ethoxy phosphate potassium to ensure it has not deteriorated or hydrolyzed. If there are abnormalities, timely measures should be taken.

 

FAQ

Q1

What is the mechanism of ODEP-K potassium octyl decanol ethoxy phosphate as a flame retardant?

Re:The mechanism of using ODEP-K potassium octyl decanol ethoxy phosphate as a flame retardant mainly includes forming a barrier layer during combustion, capturing free radicals, and reducing the generation of combustible gases. When the material is exposed to a fire source, ODEP-K can form a phosphate barrier layer on the material's surface, effectively preventing direct contact between the flame and the material's interior, thereby delaying combustion. At the same time, it can also capture free radicals generated during the combustion process, interrupt the combustion chain reaction, and further suppress the spread of flames. In addition, ODEP-K can also reduce the generation of combustible gases, reduce fuel supply in fires, and thus enhance the flame retardant performance of materials.

 

Q2

How can to improve the flame retardant performance of materials using ODEP-K potassium octyl decanol ethoxy phosphate as a flame retardant?

Re:ODEP-K potassium octyl decanol ethoxy phosphate enhances the flame retardant performance of the material through various means. Firstly, it can form a dense barrier layer on the material's surface, preventing direct contact between flames and the material's interior, thereby delaying the combustion process. Secondly, ODEP-K can capture free radicals generated during combustion, interrupt the combustion chain reaction, and reduce the possibility of flame spread. In addition, it can also reduce the generation of combustible gases, reduce fuel supply in fires, and further improve flame retardancy. The combined effect of these mechanisms enables ODEP-K to effectively improve the flame retardant performance of materials and protect people's lives and property safety.

 

Q3

How does ODEP-K interact with plastic molecules as a plasticizer?

Re:ODEP-K as a plasticizer and plastic molecules interact mainly through the following steps. Firstly, the long-chain alkyl portion of ODEP-K interacts with polar groups in plastic molecules, forming physical crosslinking points. These crosslinking points can increase the distance between plastic molecules, reduce intermolecular forces, and make plastics more prone to flow and deformation. Secondly, the phosphate ester group of ODEP-K undergoes an esterification reaction with functional groups such as hydroxyl or carboxyl groups in plastic molecules, forming chemical bonds. This chemical bonding can further enhance the binding force between plastic molecules and improve the strength and stability of plastic products. Through these interactions, ODEP-K can effectively improve plastics' processing performance and flexibility.

 

Q4

Under what specific conditions may ODEP-K undergo hydrolysis reactions?

Re:ODEP-K potassium octyl decanol ethoxy phosphate may undergo hydrolysis reactions under high temperatures or acidic conditions. Specifically, when the ambient temperature rises, or the medium becomes acidic, the phosphate ester bonds in ODEP-K may be attacked by water molecules and break. During this process, the cleavage of phosphate ester bonds generates phosphoric acid and corresponding alcohols, leading to changes in the structure and properties of ODEP-K. Therefore, ODEP-K should avoid being revealed to high temperatures or acidic environments to ensure its stability and effectiveness.

 

Q5

What are the unique advantages and limitations of ODEP-K compared to other types of flame retardants, plasticizers, and surfactants?

Re:Compared with other flame retardants, plasticizers, and surfactants, ODEP-K potassium octyl decanol ethoxy phosphate exhibits unique advantages and limitations. Its advantage lies in its efficient flame retardant performance, which can form a barrier layer on the material's surface, effectively preventing flame spread and improving the flame retardant level of the material. In addition, ODEP-K also has a good plasticizing effect, which can significantly improve the processing performance and flexibility of plastics, making plastic products more beautiful and practical. It has many applications and is suitable for various plastics and textiles. However, the limitations of ODEP-K cannot be ignored as it is sensitive to environmental conditions and may undergo hydrolysis reactions under high temperatures or acidic conditions, affecting its stability and effectiveness. In addition, ODEP-K may have certain impacts on the environment and human health, so special attention should be paid to environmental and safety issues when using it.

REQUEST A QUOTE

REQUEST A QUOTE