Introduction:
Mixing torque rheometer, can be used to study the thermal stability of thermoplastic materials, shear stability, flow and plasticization behavior, the most prominent feature is that in a similar actual processing of continuous and accurate system flow Varying properties can be determined by a variety of experiments such as thermal fusion testing of thermoplastic materials, curing properties of thermosetting materials, thermal stability testing, shear susceptibility testing, and material mixing. Technical Parameters:
Monitoring and control host: Power: 3 × 380V, 50Hz + N + PE, 32A
Host control mode: industrial bus-type control drive
Motor power: 3.0KW
Power output speed: 5 ~ 150 rpm
Speed control accuracy: 0.3% F.S
Temperature control: 5-way temperature measurement, of which 4-way temperature control Static measurement accuracy: 0.1 ° C
Temperature control accuracy: + 0.5 ° C
Torque measurement range: 0 ~ 200 Nm (0 ~ 400 Nm)
Torque measurement accuracy: 0.1% F.S
Melt pressure measurement range: 0.1 ~ 100 Mpa
Melt pressure measurement accuracy: 0.5% F.S.
Mixer: Capacity: 60ml / 200ml / 300ml
Material: 304L (import) Rotor Type: Roller, Banbury, Cam, Delta
Speed ratio: 3: 2 Maximum torque: 150 Nm
Maximum temperature: 350 ℃ Temperature sensor: J-type thermocouple Heating method: electric heating Heater: Imported heating tube processing power / piece: 1000W Heating zone: 3
Introduction:
Mixing torque rheometer, can be used to study the thermal stability of thermoplastic materials, shear stability, flow and plasticization behavior, the most prominent feature is that in a similar actual processing of continuous and accurate system flow Varying properties can be determined by a variety of experiments such as thermal fusion testing of thermoplastic materials, curing properties of thermosetting materials, thermal stability testing, shear susceptibility testing, and material mixing.
