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XDR®: Oscillating Disk Rheometer ... ODR
The XDR® CureMeter System XDR® CureMeter Systems by CCSi
A well known problem has existed with previous Oscillating Disk Rheometers: the temperature of the test sample is not homogeneous due to heat leakage from the heated upper and lower dies to the unheated rotor and other lower temperature areas of the machine.
The temperature of the rotor being substantially below that of the dies which enclose the sample, results in continuous heat loss by conduction from the rotor down the drive shaft causing the rotor to be colder than the dies. Thus, the average effective cure temperature can never be accurately measured or reproduced because of this unpredictable temperature gradient.
Therefore, to translate cure parameters from an existing Oscillating Disk Rheometer (ODR) to practical isothermal applications is difficult and at best an approximation.
This condition not only negatively impacts reproducibility, but also substantially increases the time for the sample to cure while giving erroneous and misleading “presumed to be isothermal” cure parameters.
The appropriate solution to this problem is to maintain the rotor at the 'set point' temperature of the dies by directly heating the head of the rotor.
The XDR® Oscillating Disk Rheometer incorporates a heater and temperature control sensor inserted into the head of the rotor (patent pending), precisely maintaining the temperature.
As a result, the measured time for completion of cure is shorter and the test more accurately reflects the curing characteristics of the stock at that set isothermal temperature. The rapid heat recovery combined with a homogeneous temperature environment substantially improves reproducibility while shortening testing times and providing more nearly true isothermal data.
The heated rotor will also substantially negate the adverse effect of 'loading time' on variability of results, a characteristic previously observed with the Oscillating Disk Rheometer. Consequently, the results variability of the XDR® in the Oscillating Disk Rheometer heated rotor mode approach that of the MDR.
The heated rotor makes this improvement available to the user while providing the option to operate under conventional Oscillating Disk Rheometer (non heated rotor) conditions for correlation with historical data. The application of this feature are key to overcoming some of the performance limitations of existing cure meters. These facets are discussed in detail in the article “Innovations”.
Cross Section View of the Oscillating Die “... in the conventional Oscillating Disk Rheometer (ODR) configuration, the sample is sealed between the upper and lower die cavities, surrounding the oscillating biconical rotor. The patented heated rotor reduces test times and greatly improves precision and accuracy.”
XDR® Oscillating Disk Rheometer: Features & Benefits
XDR® ODR FEATURES:
  1. S', S", and S* data;
  2. Pneumatic rotor clamping;
  3. Patented, uniquely heated rotor;
  4. Convertibility to an MDR or Mooney reduces initial and future investments;
  5. Meets ASTM D2084, ISO 3417 and BSI 1673.
XDR® ODR BENEFITS:
  1. Quick & easy sample removal;
  2. Modular design reduces maintenance cost & down time;
  3. Reduced test times with patented uniquely heated rotor;
  4. Replicate historical test results;
  5. Obtains complete dynamic properties;
  6. Easily & inexpensively reconfigured to an MDR.
XDR® Oscillating Disk Rheometer: Specifications
  1. Torque:
    • 0.1 to 200 lb/in
  2. Selectable Test Times:
    • 0.0 to 99 minutes
  3. Selectable Temperature Range:
    • Ambient to 225 C
  4. Angular Displacement:
    • ± 0.5, 1, 3, 6 (selectable)
  5. Weight:
    • 160 kg (352.8 lb.)
  6. Space Requirements:
    • Instrument: 610 x 610 x 1220 mm (24 x 24 x 48 in.)
    • Computer: 300 x 610 x 710 mm (varies) (12 x 24 x 27 in.)
    • Monitor: 410 x 410 x 410 mm (varies) (16 x 16 x 16 in.)
XDR® OPERATING SYSTEM FEATURES:
  1. Computerized data acquisition & analysis system;
  2. Viscometer Module complies with ASTM D1646, ISO 289 (replaced ISO/R 289), BS ISO 289-4, BS 903-A59 & BS 903-A58 (replaced BS 1673);
  3. Rheometer Module complies with ASTM D2084, ISO 3417, & BS 903-A60 (replaced BS 1673);
  4. MDR Module is compatible with ASTM D5289 & ISO 6502;
  5. Microsoft® Windows Operating System;
  6. Pentium® Processor & Intel® chipset;
  7. Computerized PID temperature management systems;
  8. Automatic system calibration;
  9. Computerized torque measurement system;
  10. Computerized calibration and verification (no mechanical adjustments necessary);
  11. Automatic mechanical deflection corrections;
  12. Superior ability to detect differences in compounds and raw polymers;
  13. Raw data stored for easy retrieval or transfer;
  14. Standard and User defined test parameters;
  15. Real time display of test data and parameters;
  16. Selectable presentation of data in printed, graphed or overlay formats;
  17. Real Time Plot & Digital display of:
    • S', S", and S* Data
    • Loss Angle Data
    • Temperature, All Dies
    • Temperature Set Point
  18. Digital display of:
    • Test Mode
    • Operation Mode
    • Test File Name
  19. Printed Data Output Options:
    • Single Test
    • Overlay Multiple Tests
    • Overlay Historic Tests
  20. Display Data Output Options:
    • Test In Progress
    • Historic Single Test
    • Overlay Historic Multiple Tests
    • Apply different parameters to historic results for an “if—then—else” analysis.
XDR® eXchangeable Die Rheometer: Module and System Pricing
XDR® Individual Modules
MDR  Please Submit a RFQ 
ODR (heated rotor standard option)  Please Submit a RFQ 
Mooney Viscometer  Please Submit a RFQ 
XDR® Module Combinations
MDR & ODR Modules  Please Submit a RFQ 
MDR & Mooney Modules  Please Submit a RFQ 
ODR & Mooney Modules  Please Submit a RFQ 
XDR® Complete
Mooney, MDR & ODR Modules  Please Submit a RFQ 
Lease Options Available
Please visit the MDR and Viscometer pages to learn more about the flexibility of the XDR®. Detailed technical aspects of the XDR® are examined at length in the article titled “Innovations”.

Index Terms: ASTM D1646, D1646, Standard Test Methods for Rubber Viscosity, Stress Relaxation, and Pre - Vulcanization Characteristics (Mooney Viscometer), Mooney Viscometer, viscometer, curing characteristics, Mooney, stress relaxation, viscosity, vulcanization characteristics, 83.060, rubber cure, shearing disk, viscosity, pre-vulcanization characteristics, Delta Mooney value, defined shear rate, Oscillating Disk Rheometer, ASTM D2084, D2084, Standard Test Method for Rubber Property - Vulcanization Using Oscillating Disk Cure Meter, compounds, ODR, oscillating disk cure meter, oscillating disk curemeter, oscillating disk rheometer, vulcanization characteristics, rheometer, ASTM D5289, D5289, Standard Test Method for Rubber Property Vulcanization Using Rotorless Cure Meters, Moving Die Rheometer, MDR, curemeters, rotorless cure meter, rotorless curemeter, ASTM D6601, D6601, Standard Test Method for Rubber Properties - Measurement of Cure and After - Cure Dynamic Properties Using a Rotorless Shear Rheometer, dynamic properties, loss modulus, rotorless oscillating shear rheometer, storage modulus, rubber, rheology, cure behavior, ISO 6721, ISO 3417, ISO 6502, ISO/R 289, ISO 289, BS 903, BS ISO 6502, BS ISO 289-4
Copyright © 2006 CCSi, Inc. • All Rights Reserved • Published August, 2006
Corporate Consulting, Service & Instruments, Incorporated
221 Beaver Street • Akron, Ohio 44304 USA
Telephone: 800.742.8535 / 330.376.3600 • Facsimile: 800.229.9329 / 330.376.8500
www.ccsi-inc.com www.orecozone.net