Request A Quote
It is a No rotor rheometer where rubber sample is enclosed in mold cavity, maintained at test temperature. The mold cavity comes in two parts, where lower part (swing oscillations) determines strain as the reaction torque of the mold cavity (force). The PID controlled microprocessor technology controls and detects change in temperature. LCD screen display the real vulcanization curve and temperature curve, adjust the test data, store test results.
$22,620.00
$11,310.00
Specifications
| Temperature Range | Room temperature to 200°C |
| Temperature display resolution | 0.1°C |
| Temperature control accuracy | ≤ ± 0.3°C |
| Rotor speed | 100 times/ min |
| Die cavity frequency | 1.7 Hz |
| Sway angle | ± 0.5°, ± 1°, ± 3° |
| Air compression | 0.5 MPa to 0.65 MPa |
| Ambient temperature | 0 to 35°C |
| Test result | Printed date, time, temperature, vulcanization curve, temperature curve ML, MH, ts1, ts2, t10, t50, Vc1, Vc2 |
| Display | Windows 7 + software |
| Torque range | 0 to 5 NM, 0 to 10 NM, 0 to 20 NM |
| Torque resolution | 0.001 NM |
| Product dimension | 1310 × 560 × 620 mm |
| Weight | 250 kg |
| Power supply | Single phase, 220 V ± 10%, 50 Hz |
Features
PID controlled microprocessor technology LCD Display
Use of highly imported precision sensors
Statistics, analysis, storage and comparison functions
Can print automatic processing, calculations results
Non curing viscometer monolithic rotor controlled
User-friendly design appearance, easy to operate
Supplied with data acquisition system
Finds the vulcanization time for gelatin
Applications
No rotor rheometer is used to test vulcanization characteristics of rubber material across rubber industry for quality & research.
1.What types of rubber properties can Rubber Testing Instrument measure?
Our instruments are designed to accurately measure key rubber and elastomer properties such as viscosity, scorch time, cure characteristics, elasticity, resilience, and hardness.
2.How do PID-controlled microprocessors enhance testing accuracy?
PID control ensures precise temperature and pressure regulation during testing. This results in consistent and repeatable measurements for parameters like viscosity, scorch time, and curing behaviour.
3.What type of data can be printed using the built-in printer?
Users can print key data such as viscosity values, cure characteristics e.g., scorch time, cure time, torque, statistical summaries and real-time graphs or curves.
4.How does the system support data visualization?
The system provides intuitive, real-time graphical displays such as cure curves and viscosity-time plots allowing users to observe material behaviour throughout the testing process.
5.How does the built-in LCD enhance the user experience?
Integrated LCD provides a clear, real-time display of test parameters, progress and results, allowing users to easily monitor and control testing without needing a separate computer.
