Mixing, kneading, compounding and plasticizing A typical mixer test is run at a defined speed (shear rate) versus time, and the material’s response is recorded as torque. The mixing chamber is temperature-controlled precisely by independent heating and cooling zones, but due to the frictional heat in the mixing bowl, a change in the material’s melt temperature is observed and recorded as measuring signal. This “Rheogram” (torque, melt temperature vs. time at constant speed) is characteristic for different materials or blends and often used as a “fingerprint” in Quality Control for incoming or outgoing product inspection. Different additives in type and concentration can be measured and quantified objectively through the melting behavior, consumed energy or melt viscosity (recorded torque). Typical investigations Testing the melting and degradation behavior of polymer melts Quantifying viscosity when adding nano-particles or other additives Testing the gelation- and plasticizing behavior of PVC dry-blends Measuring the flow- and curing behavior of thermosetting plastics Characterizing the influences of different additives such as carbon black, fillers, lubricants, accelerators or sulphur for rubber mixtures Recording the masticating and vulcanizing behavior of elastomers Measuring the oil absorption of carbon black Quantifying the absorption of DOP for PVC dry-blends Measuring the stable torque in regard to individual and combined influences of fillers and additives such as stabilizers, lubricants and color pigments Testing high performance plastics to check processability Performing electric conductivity measurements for rubber mixtures
Sold out
HAAKE™ Rheomix OS Lab Mixers for the HAAKE™ PolyLab™ OS system
HAAKE™ Rheomix Lab Mixers for the HAAKE™ PolyLab™ OS System torque rheometer platform are focused on batch testing of many highly viscous substances. Intelligent modular torque rheometer system for the simulation of industrial processes in the lab or pilot plants.
Сatalog number:
567-1040
Category: Extruders
Description
Additional information
Max. Speed |
250 rpm |
---|---|
Max. Torque |
300 Nm, 160 Nm |
Torque Rheometer |
Yes |
Height (Metric) |
125 cm, 119 cm |
Length (English) |
25.9 in. |
Length (Metric) |
66 cm, 66 cm |
Width (Metric) |
52 cm, 50 cm |
Max. Temperature |
350°C, 450°C, 400°C |
Control and Evaluation Software |
Windows based Software: PolySoft |
Measuring Sensor Connection |
CANopen |
Measuring Sensors |
3, Melt temperature |
Rotor Type |
Roller, Cam, Sigma and Banbury Rotor available, Delta Rotors |
Temperature Control |
Liquid, Electrical |
Volume (Metric) |
Approx. 300 ccm, Approx. 60 ccm |
Unit Size |
Each |
Reviews (0)
Be the first to review “HAAKE™ Rheomix OS Lab Mixers for the HAAKE™ PolyLab™ OS system” Cancel reply
Shipping & Delivery
Related products
Сatalog number:
553-2039
Pharma 24 Twin-Screw Extruder
The Thermo Scientific™ Pharma 24 Twin-Screw Extruder, with avaialble HME and Twin-Screw Granulation (TSG) Application Sets, is ideal for continuous processing in research, development or production in the pharmaceutical industry. The Pharma 24 extruder drives reduced clean room area, consistent and controllable processing, reduced product changeover time, on-demand production, minimized scale-up risk and reliable cleaning. It is suitable for process analytical technology (PAT).
Сatalog number:
QCMIXER
HAAKE™ Rheomix QC Lab Mixers for the HAAKE™ PolyLab™ QC System
Сatalog number:
567-2110
HAAKE™ Rheomex QC lab Single Screw Extruders for the HAAKE™ PolyLab™ QC System
Сatalog number:
567-2096
HAAKE™ MiniJet Pro Piston Injection Molding System
Сatalog number:
567-2030
HAAKE™ Rheomex CTW 100 OS Twin-Screw Extruder for the HAAKE™ PolyLab™ OS System
Сatalog number:
553-1040
Pharma 16 Twin-Screw Extruder
Rapidly develop pharmaceutical formulations and adopt continuous processing methods using the Thermo Scientific™ Pharma 16 Twin-Screw Extruder. The Pharma 16 Twin-Screw Extruder can switch between continuous hot melt extrusion (HME) or wet granulation (TSG) with ease. Optimize drug process development parameters with less time and effort than batch processes and easily scale-up to larger Thermo Scientific™ extruders with using minimal amounts of expensive APIs and excipients.
Сatalog number:
567-2090
HAAKE™ MiniCTW Micro-Conical Twin Screw Compounder
Сatalog number:
553-0060
Energy 11 Twin-Screw Extruder
The Energy 11 Twin-Screw Extruder can be set up for a wide range of applications encountered in current battery R&D. The fully ported, horizontally split barrel allows for flexible feeding of solid and liquid ingredients. Interchangeable die designs adapt to a range of materials from dry granules, polymeric solid-state electrolytes, and electrode films to wet slurries. Eight precisely controlled temperature zones along the barrel ensure flexibility in processing.
Reviews
There are no reviews yet.