Equipment usage:

The Mooney viscosity testing machine is a method of measuring the flowability of raw rubber and unvulcanized rubber by rotation. In the rubber processing process, from the beginning of the plasticizing machine to the completion of vulcanization, there is a close relationship with the fluidity of the rubber, and the Mooney viscosity value is an important technical indicator to measure this performance. It is an indispensable instrument in the industries of recycled rubber, rubber, and wires and cables.

Meet standards:

GB 9869-1997 Determination of Vulcanization Characteristics of Rubber Compounds (Disk Oscillation Vulcanizer Method)

GB/T 1232.1-2000 Unvulcanized Rubber - Determination of Mooney Viscosity

GB/T 1233-92 Rubber compounds - Determination of initial vulcanization characteristics (Mooney viscometer method)

ISO 3417-1977 Rubber - Method for determining the vulcanization characteristics of rubber compounds using a disc oscillating vulcanization apparatus

HG/T 3121-1998 Technical Conditions for Rubber Disc Swing Vulcanizer

HG/T 3242 Technical Conditions for Rubber Mooney Viscometer

GB/T 16584-1996 Rubber - Determination of Vulcanization Properties Using a Rotorless Vulcanizer

ISO 6502:1991 (E) Rubber - Determination of vulcanization properties using a rotor less vulcanization apparatus

ASTM D5289-93 (a) Standard Test Method for Rubber Properties - Determination of Vulcanization Properties Using a Rotorless Vulcanizer

ISO 289-1 (1994) Unvulcanized rubber - Determination using a shear disc viscometer

Application industry:

Widely used in metrological quality inspection; Rubber research; Automobile manufacturing; Wire and cable; Medical devices; Civil aviation; Higher education institutions; Research and Experimental Institute; Technical supervision department; Petrochemical industry; Tire production; Other industries.

Product features:

● Modular function of testing standards: Provide users with testing settings for the required applications, covering testing standards and specifications such as GB, ASTM, DIN, JIS, BS, etc.

Test sample data: Provide users with all test sample data that can be permanently reused once input.

Auto Scale of graph curves enables the graph to be displayed at the optimal scale. And it can dynamically switch between real-time graphics during testing.

The temperature control circuit is composed of a measurement and control module, a platinum resistor, and a heater, which can automatically track changes in the power grid and environmental temperature, automatically correct PID parameters, and achieve rapid and accurate temperature control.

Using computer control and interface boards for data collection, storage, processing, and printing of test results and curves

The software platform can be Windows 98/me/NT/XP or other versions, with a visual graphical software window operation interface, making digital processing more accurate, simple, flexible, and convenient to operate

Technical parameters:

*Measurement and control temperature range: room temperature~200 ℃

*Temperature measurement display resolution: 0.01 ℃ (ordinary 0.1 ℃ is controlled by an imported temperature controller)

*Temperature measurement and control accuracy: ± 0.3 ℃

*Calibration accuracy: ± 0.5 Mooney value

*Rotor speed: 2 rpm ± 0.02 rpm

*Torque range: 0-200 Mooney values

*Torque resolution: 0.1 Mooney values

*Print content: date, time, temperature, Mooney scorch curve, MV, T5, T35, T3, T18, @ 15, @ 30

*Power supply: 50HZ,~220V ± 10%