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Stem Flex Melt Pressure Transmitter five-core connector
Stem Flex Melt Pressure Transmitter two-wire transmitter output
High-Temperature-Stem-Flex-Melt-Pressure-Transmitter
PT123 Stem Flex Melt Pressure Transmitter
Stem Flex Melt Pressure Transmitter
Stem Flex Melt Pressure Transmitter five-core connector
Stem Flex Melt Pressure Transmitter two-wire transmitter output
High-Temperature-Stem-Flex-Melt-Pressure-Transmitter
PT123 Stem Flex Melt Pressure Transmitter
Stem Flex Melt Pressure Transmitter

PT123 Stem Flex Melt Pressure Transmitter

PT123 stem flex melt pressure transmitter is used in the field of pressure measurement and control of high-temperature melts, fluids, and gases under normal conditions. Adopts British 1/2″-20UNF international standard mounting thread.

  • High comprehensive measurement accuracy;
  • High temperature resistance, up to 400℃;
  • Encapsulated in stainless steel;
  • Flexible hose design;
  • Adopts British 1/2″-20UNF international standard mounting thread.

PT123 Stem Flex Melt Pressure Transmitter Description

PT123 Stem Flex Melt Pressure Transmitter adopts the British 1/2″-20UNF international standard installation thread. It is used in the field of pressure measurement and control of high-temperature melts, fluids, and gases under normal conditions.

It has the advantages of high accuracy, good stability, large output signal, good dynamics, and strong versatility. Widely used in petrochemical, chemical fiber spinning machinery, non-woven fabrics, non-woven fabrics, plastics, rubber, extrusion equipment and other industries.

Also known as: melt pressure sensor/transmitter, plastic machine pressure sensor, plastic machine pressure measurement and control sensor, plastic machine pressure control instrument.

PT123 Melt Pressure Transmitter Technical Specifications

Item Performance parameters
Measuring range 0~5MPa~200MPa (0~50Bar2000Bar/0~700PSI30000PSI)
Accuracy ±0.5%FS(optional); ±1.0%FS(standard)
Repeatability ±0.4%FS(optional); ±0.8%FS(standard)
Working power supply 10V DC (6~12V DC)
Output signal 1.5mV/V(optional); 2.0mVV(standard); 2.5mV/V(optional)
Calibration 80%±1.0%FS
Probe temperature resistant 400℃
Ambient temperature -10℃~80℃
Probe temperature drift ≤0.3MPa/100℃
Insulation resistance ≥500M2
Mounting thread 1/2″-20
Electrical connections 5PIN (XS12J5A/XS12K5P)
pressure overload 1.5 times the rated working pressure
Electromagnetic Compatibility Comply with GB/T17626.22 and GB/T17626.43 standards
Temperature measurement configuration None
Diaphragm material High acid and alkali resistance and high wear resistance 3SD51 alloy
15-5PHSST
Acid-resistant nickel-based alloy
titanium-nickel-iron alloy
Titanium Nickel Alloy
Special acid-alkali-resistant and wear-resistant alloy
Optional coatings Uncoated
titanium coating
Fluoride coating
Inconel coating
Multi-composite high wear-resistant and anti-corrosion coating
Diamond-like coating with high wear resistance and strong corrosion resistance

Get Melt Pressure Measurement Solutions

In high-temperature industrial automation, Sino-Inst’s Melt Pressure Transmitters are widely used. It can be used in the production process of high-temperature polymer materials such as plastics, chemical fibers, and rubber. It helps companies achieve efficient, accurate, and reliable production control!

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PT123 Melt Pressure Transmitter Application

Sino-Inst high temperature melt pressure transmitter uses advanced sensing technology and materials to operate in extreme high temperature environments up to 400 degrees Celsius. It has the characteristics of high precision, high stability and long life. It can continue to provide reliable measurement data for high temperature industrial automation.

Use of high temperature Melt Pressure Transmitter in plastic machinery

During the extrusion production process, some product quality standards require optimal control of the extrusion pressure. Such as dimensional accuracy or surface flatness of parts with mineral fillers added. High-temperature melt pressure sensors are used to achieve this requirement. important components.

By installing a melt pressure sensor and a pressure control device at the mold inlet connection, the productivity can be made more stable and the waste of material can be reduced. Melt pressure sensors play an important role in improving melt quality, improving production safety, protecting production equipment and extending its service life.

In addition, measuring the pressure across the filter and melt pump is also very important to ensure production safety and optimize equipment performance. If the flow of melt into the mold is blocked, a sensor under the filter will sound an alarm to alert the operator.

When a sensor upstream of the filter sounds an alarm, it indicates that the pressure inside the extruder is too high and may cause excessive wear on the screw. For manufacturers who use melt pumps, it is necessary to measure the inlet pressure and outlet pressure of the melt to ensure that the melt can continuously flow into the mold. Because any obstruction may cause damage to the melt pump.

More Detail

What is melt pressure in injection molding?

Injection mold pressure refers to the melt pressure generated at the screw head during injection.

When selecting the injection pressure, you should first consider the injection pressure allowed by the injection molding machine. Only when the injection pressure is too low will the cavity pressure be insufficient and the melt cannot fill the cavity smoothly.

On the contrary, excessive injection pressure will not only cause product leakage, but also cause product deformation and even system overload.

Plasticizing pressure, also called back pressure, refers to the pressure on the melt at the top of the screw of the injection machine when the screw rotates and retreats. It is controlled by adjusting the oil return resistance of the injection hydraulic cylinder.

The plasticizing pressure increases the internal pressure of the melt and strengthens the shearing effect. Due to the shear heating of the plastic, the temperature of the melt is increased.

The increase in plasticizing pressure slows down the retraction speed of the screw, prolongs the heating time of the plastic in the screw, and the plasticizing quality can be improved.

However, excessive plasticizing pressure also increases the backflow and leakage of the melt in the barrel metering chamber, reducing the melt conveying capacity. The amount of plasticization is reduced and power consumption is increased. And too high plasticizing pressure will cause shear heating or excessive shear stress, and the melt will easily degrade.

During the injection process, the injection pressure and melt temperature are mutually restricted. When the material temperature is high, satisfactory results can be obtained only by the combination of the required injection pressure and material temperature.

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