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NE-305L
White granular
| Quantity: | |
|---|---|
Technical parameter
Grade: NE-305L
Chemical Composition: Nanomaterials
Appearance: white granular
Applicable resin: HIPS, GPPS, LDPE, HDPE, PPA and other general and engineering plastics
Application Features:
●No moisture absorption, excellent dispersion performance, and stability is significantly better than that of powder
● Significantly lower nucleation free energy and high nucleation efficiency
●Nano-scale particle size, does not affect the transmittance
●Food grade environmental protection, food contact safety
Recommended dosage:
0.5-1.0% for Injection
0.5-1.0% for Extrusion
Package & Storage
It must be stored in a cool, dry place, and kept away from hot steam pipes and fire sources to avoid direct sunlight. It is strictly prohibited to direct contact with acid and alkali. The auxiliary is packed by 25kg per bag.
As the name suggests, physical foaming nucleating agents (PFNAs) are chemicals that promote the formation of bubbles in liquids during physical foaming processes. PFNAs work by adsorbing onto the surface of bubbles and providing sites for bubble coalescence. By doing so, they increase the rate at which bubbles are formed and stabilized, leading to a more uniform foam structure.
PFNAs are used in a variety of industries, including food processing, cosmetics manufacturing, and detergent production. They are also used in firefighting foams, as well as in many industrial applications where foam is used for insulation or as a packaging material.
There are many different types of PFNAs available on the market, each with its own unique set of properties. The type of PFNA that you choose will depend on the specific application for which it will be used.
Nucleating agents are additives that help create and stabilize gas bubbles in polymer melts and solutions. Gas bubbles can improve the properties of molded parts by reducing density, increasing stiffness, and improving heat transfer. Physical foaming nucleating agents (PFNA) are a type of nucleating agent that uses physical blowing agents to create gas bubbles. PFNAs can be used with a variety of different plastics to improve their performance.
A physical foaming nucleating agent is a material that can be added to a polymer to create a uniform and consistent cell structure in the finished foam product. The most common nucleating agents are talc, clay, calcium carbonate, and titanium dioxide.
The addition of a nucleating agent will lower the overall density of the finished foam product. The use of a physical foaming nucleating agent is the preferred method for creating low-density foams.
The use of a physical foaming nucleating agent will also increase the dimensional stability of the finished foam product. The consistent cell structure created by the nucleating agent helps to prevent deformation of the foam under load.
The addition of a physical foaming nucleating agent can also help to improve the mechanical properties of the finished foam product. The consistent cell structure created by the nucleating agent helps to distribute stress evenly throughout the foam, resulting in improved strength and durability.
A physical foaming nucleating agent is a substance that helps to create and stabilize foam. When added to a liquid, it increases the number of bubbles and helps to keep them from popping. Foam is often used as an insulator or cushion, and nucleating agents are used in a variety of applications where foam is desired.
Nucleating agents are added to liquids in very small amounts, typically 0.1% or less by weight. They can be made from natural materials such as clay minerals, or synthetic polymers. Commonly used synthetic nucleating agents include polyethylene glycols, polypropylene glycols, and polyvinylidene chloride.
Foam created with the help of a nucleating agent is often more uniform and stable than foam formed without one. Nucleating agents help to create smaller bubbles, which leads to a more regular structure overall. This can be desirable in applications where the foam will be visible, such as in architectural details or packaging design.
Technical parameter
Grade: NE-305L
Chemical Composition: Nanomaterials
Appearance: white granular
Applicable resin: HIPS, GPPS, LDPE, HDPE, PPA and other general and engineering plastics
Application Features:
●No moisture absorption, excellent dispersion performance, and stability is significantly better than that of powder
● Significantly lower nucleation free energy and high nucleation efficiency
●Nano-scale particle size, does not affect the transmittance
●Food grade environmental protection, food contact safety
Recommended dosage:
0.5-1.0% for Injection
0.5-1.0% for Extrusion
Package & Storage
It must be stored in a cool, dry place, and kept away from hot steam pipes and fire sources to avoid direct sunlight. It is strictly prohibited to direct contact with acid and alkali. The auxiliary is packed by 25kg per bag.
As the name suggests, physical foaming nucleating agents (PFNAs) are chemicals that promote the formation of bubbles in liquids during physical foaming processes. PFNAs work by adsorbing onto the surface of bubbles and providing sites for bubble coalescence. By doing so, they increase the rate at which bubbles are formed and stabilized, leading to a more uniform foam structure.
PFNAs are used in a variety of industries, including food processing, cosmetics manufacturing, and detergent production. They are also used in firefighting foams, as well as in many industrial applications where foam is used for insulation or as a packaging material.
There are many different types of PFNAs available on the market, each with its own unique set of properties. The type of PFNA that you choose will depend on the specific application for which it will be used.
Nucleating agents are additives that help create and stabilize gas bubbles in polymer melts and solutions. Gas bubbles can improve the properties of molded parts by reducing density, increasing stiffness, and improving heat transfer. Physical foaming nucleating agents (PFNA) are a type of nucleating agent that uses physical blowing agents to create gas bubbles. PFNAs can be used with a variety of different plastics to improve their performance.
A physical foaming nucleating agent is a material that can be added to a polymer to create a uniform and consistent cell structure in the finished foam product. The most common nucleating agents are talc, clay, calcium carbonate, and titanium dioxide.
The addition of a nucleating agent will lower the overall density of the finished foam product. The use of a physical foaming nucleating agent is the preferred method for creating low-density foams.
The use of a physical foaming nucleating agent will also increase the dimensional stability of the finished foam product. The consistent cell structure created by the nucleating agent helps to prevent deformation of the foam under load.
The addition of a physical foaming nucleating agent can also help to improve the mechanical properties of the finished foam product. The consistent cell structure created by the nucleating agent helps to distribute stress evenly throughout the foam, resulting in improved strength and durability.
A physical foaming nucleating agent is a substance that helps to create and stabilize foam. When added to a liquid, it increases the number of bubbles and helps to keep them from popping. Foam is often used as an insulator or cushion, and nucleating agents are used in a variety of applications where foam is desired.
Nucleating agents are added to liquids in very small amounts, typically 0.1% or less by weight. They can be made from natural materials such as clay minerals, or synthetic polymers. Commonly used synthetic nucleating agents include polyethylene glycols, polypropylene glycols, and polyvinylidene chloride.
Foam created with the help of a nucleating agent is often more uniform and stable than foam formed without one. Nucleating agents help to create smaller bubbles, which leads to a more regular structure overall. This can be desirable in applications where the foam will be visible, such as in architectural details or packaging design.
