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P-530
White Powder
| Quantity: | |
|---|---|
Technical parameter
Specification | Unit | Test standard | P-530 |
Appearance | -- | -- | White powder |
Bulk density | g/cm3 | GB/T 1636-2008 | 0.45±0.10 |
Sieve residue (30 mesh) | % | GB/T 2916 | ≤2.0 |
Volatile content | % | ASTM D5668 | ≤1.50 |
Intrinsic viscosity (η) | -- | GB/T 16321.1-2008 | 11.00-13.00 |
Application Features:
Low density for PVC foaming products
Good cell uniformity for PVC foaming products
Faster fusion promotion
Excellent surface-glossness
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. This auxiliary is packed by 20kg or 50kg per bag or per drum.
Assuming you would like a product introduction for a foam regulator:
A foam regulator is a device that is used in order to maintain a consistent and desired amount of foam within a system. This can be useful in many different applications where it is necessary to have control over the level of foam. For example, in the food industry, certain types of foams are used in order to add texture or create different flavors in products. In other industries, such as the pharmaceutical industry, foams are used for their ability to resist chemical reactions and maintain stability. By using a foam regulator, manufacturers can ensure that their products will meet the necessary standards and requirements.
When it comes to choosing a fire extinguisher, one factor that should be considered is the discharge time. The FOAM regulator has a shorter discharge time than most other fire extinguishers on the market, making it a more effective choice in an emergency situation.
Another advantage of the FOAM regulator is its ability to cool hot surfaces. This can be helpful in preventing re-ignition of fires. Additionally, the FOAM regulator can be used on Class A, B, and C fires, making it a versatile option for use in different situations.
When discussing technical parameters for the FOAM regulator, there are a few key points to consider. First, the regulator must have an inlet and outlet pressure port. The inlet pressure port is where compressed air or nitrogen enters the regulator, and the outlet pressure port is where the regulated gas exits the regulator. Second, the regulator must have an adjustable delivery pressure knob or screw. This allows the user to adjust the output pressure of the regulator to match their needs. Lastly, the regulator should have a durable body construction with a high quality finish. This will ensure that the regulator can withstand repeated use and still look good as new.
Product Uses:
FOAM regulators are designed to be used in a wide variety of applications including oil and gas production, food and beverage processing, pharmaceutical manufacturing, and more. FOAM regulators can be used to control the flow of liquids or gases, to regulate pressure, or to act as a safety valve in case of an overpressure situation.
Technical parameter
Specification | Unit | Test standard | P-530 |
Appearance | -- | -- | White powder |
Bulk density | g/cm3 | GB/T 1636-2008 | 0.45±0.10 |
Sieve residue (30 mesh) | % | GB/T 2916 | ≤2.0 |
Volatile content | % | ASTM D5668 | ≤1.50 |
Intrinsic viscosity (η) | -- | GB/T 16321.1-2008 | 11.00-13.00 |
Application Features:
Low density for PVC foaming products
Good cell uniformity for PVC foaming products
Faster fusion promotion
Excellent surface-glossness
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. This auxiliary is packed by 20kg or 50kg per bag or per drum.
Assuming you would like a product introduction for a foam regulator:
A foam regulator is a device that is used in order to maintain a consistent and desired amount of foam within a system. This can be useful in many different applications where it is necessary to have control over the level of foam. For example, in the food industry, certain types of foams are used in order to add texture or create different flavors in products. In other industries, such as the pharmaceutical industry, foams are used for their ability to resist chemical reactions and maintain stability. By using a foam regulator, manufacturers can ensure that their products will meet the necessary standards and requirements.
When it comes to choosing a fire extinguisher, one factor that should be considered is the discharge time. The FOAM regulator has a shorter discharge time than most other fire extinguishers on the market, making it a more effective choice in an emergency situation.
Another advantage of the FOAM regulator is its ability to cool hot surfaces. This can be helpful in preventing re-ignition of fires. Additionally, the FOAM regulator can be used on Class A, B, and C fires, making it a versatile option for use in different situations.
When discussing technical parameters for the FOAM regulator, there are a few key points to consider. First, the regulator must have an inlet and outlet pressure port. The inlet pressure port is where compressed air or nitrogen enters the regulator, and the outlet pressure port is where the regulated gas exits the regulator. Second, the regulator must have an adjustable delivery pressure knob or screw. This allows the user to adjust the output pressure of the regulator to match their needs. Lastly, the regulator should have a durable body construction with a high quality finish. This will ensure that the regulator can withstand repeated use and still look good as new.
Product Uses:
FOAM regulators are designed to be used in a wide variety of applications including oil and gas production, food and beverage processing, pharmaceutical manufacturing, and more. FOAM regulators can be used to control the flow of liquids or gases, to regulate pressure, or to act as a safety valve in case of an overpressure situation.
