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Rubber Rheometer and Testing Machine with Experimental Reproducibility
MR-C3 Rotorless Rheometer The curves and characteristic parameters on vulcanization of rubber materials can be obtained
Description
Basic Info
| Model NO. | ZWL |
| Customized | Customized |
| Structure | Desktop |
| Material | Alloy |
| Certification | CE, ISO |
| Application | School, Hospital, Lab |
| Type | Measurement Type |
| Sales Mode | Factory Direct Sale |
| Machine | Productions of Various Non-Standard Specifications |
| Type of Tire Machinery | Rheometer |
| Torque Resolution | 1/50000 |
| Torque Precision | 0.3% |
| Temperature Control Range | 60ºC-300ºC |
| Temperature Fluctuation Range | +-0.15ºC |
| Temperature Resolution | 0.01ºC |
| After Clamping The Temperature Recovety | Less Than 1min |
| Temperature Unit | C/F |
| Transport Package | Wooden Box or According to Your Needs |
| Specification | 680x650x1100 |
| Trademark | CGY |
| Origin | China |
| HS Code | 8477800000 |
| Production Capacity | 2600 PCS/Year |
Product Description
MR-C3 Rotorless RheometerThe curves and characteristic parameters on vulcanization of rubber materials can be obtained using rotorless Rheometer based on the measurement of the torque exerted by the rubber material on the oscillating die.The MR-C3 Rotorless Rheometer has excellent property of reappears and stability. In a test with good mixed rubber and the timerange is 12min, the T90 may be several second difference in 4 continual experiments.Specification· Range of temperature control: From room temperature to 200º C· Temperature fluctuation in die: ≤ ± 0.1º C;· Temperature display resolution: 0.1º C;· Rate of temperature increase: 16º C/min-25º C/min· Measurement range of torque: 0-20Nm· Torque resolution: 0.001Nm;· Angle of die oscillation: ± 0.5° , ± 1° ;· Frequency of die oscillation: 1.67Hz (100r/min)MR-C3 Test Results· ML Min. Torque (dNm)- The testing value of sample's curing characteristics (viscosity) before curing.· MH Max. Torque (dNm)- The testing value of sample's shearing modulus or rigidity. Including even torque, max. Torque for returning curve, and the max. Torque during the specific period of time where no even or returning curve happens.· Ts1 (min)- When oscillates at the angle of 0.5° Or 1° , the relative time when the torque increases to ML +1dNm. This figure shows the scorch time.· Ts2 (min)- When oscillates at the angle of 3° Or 5° , the relative time when the torque increases to ML +2dNm. This figure shows the scorch time· T10 (min)- The time when the torque increases to ML + 10 (MH - ML ) / 100dNm. This figure shows the scorch time.· T30 (min)- The time when the torque increases to ML + 30 (MH - ML ) / 100dNm.· T60 (min)- The time when the torque increases to ML + 60 (MH - ML ) / 100dNm.· T90 (min)- The time when the torque increases to ML +90 (MH - ML ) / 100dNm. This figure shows the optimum cure time.· Ti (min)- The time when the torque increases to ML + i (MH - ML ) / 100dNm.· Vc- Curing speed index. Vc =100/(T90 Tsi)
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