When selecting a polymer melt pump, several key factors need to be considered to ensure that the pump meets the specific requirements of the application and operates efficiently. Here are the main factors:

Flow Rate Requirements:

The melt pump must have a flow rate range that satisfies the actual production needs.

The stability and linearity of the flow output should meet the requirements of product quality control.

Pressure Conditions:

Clarify the pressure conditions in the application scenario, including the working pressure range and the stability requirements of the pressure.

For applications in high-pressure environments (e.g., 40 MPa), select a melt pump that can withstand the pressure and operate stably.

Consider the sealing performance of the melt pump under high pressure.

Material Characteristics:

Viscosity: The viscosity of the melt has a direct impact on pump selection. Different viscosities require different pump types and specifications.

Particle Size and Impurities: The size of particles and impurity content in the melt can affect pump wear and sealing performance. Therefore, select a suitable pump type and sealing method.

Corrosivity, Toxicity, and Temperature Stability: Ensure that the pump's materials and structure can tolerate the corrosivity, toxicity, and temperature stability of the melt.

Operating Temperature:

For melt pumps operating in high-temperature environments (e.g., 350°C), ensure that their materials and structures can withstand the high temperatures without deformation, damage, or performance degradation.

Pump Precision and Customization:

In precision extrusion systems, high precision is required for the melt pump. Select a pump with high accuracy, minimal pressure and flow pulsation, and the ability to achieve linear output flow to ensure product precision.

Consider any special structural or material requirements during production and select a suitable melt pump based on these factors, such as specific installation dimensions, connection methods, or special cleaning requirements.

Cost and Maintenance:

Consider the equipment investment and maintenance costs.

A cost-effective pump can reduce production costs and improve economic benefits.

Select pumps that are easy to operate and maintain to further reduce costs and improve efficiency.

Pump Structure and Installation:

Evaluate the pump's structure, including its components like the motor, coupling, pump head, inlet and outlet valves, and pump casing.

Choose the appropriate installation method (e.g., vertical, horizontal, or suspended) based on the site conditions.

By comprehensively considering these factors, you can select a melt pump that best suits your specific application needs, ensuring efficient and reliable operation.

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